TWI744432B

TWI744432B - Method, network equipment, and terminal equipment for transmitting data

Info

Publication number: TWI744432B
Application number: TW106142293A
Authority: TW
Inventors: 唐海; 許華
Original assignee: 大陸商Ｏｐｐｏ廣東移動通信有限公司
Priority date: 2016-12-23
Filing date: 2017-12-01
Publication date: 2021-11-01
Also published as: CA3047346A1; IL267415B; JP7170643B2; JP2020504946A; TW201824802A; IL267415A; AU2016432994A1; RU2733272C1; MX2019007569A; CN112584522B; CN110089170A; ZA201904039B; CN110089170B; WO2018112890A1; EP3547771A1; US20200022148A1; US11903004B2; AU2016432994B2; US20220070871A1; US11166283B2

Abstract

一種傳輸數據的方法、網絡設備和終端設備，該方法包括：向終端設備發送資源配置信息，該資源配置信息用於指示在調度單元內用於傳輸數據的多個資源子帶，該多個資源子帶中的每個資源子帶在頻域上由連續的物理資源塊構成，該多個資源子帶中的至少兩個資源子帶具有不同的子載波間隔；在該多個資源子帶上，與該終端設備進行該數據的傳輸。本發明實施例的方法、網絡設備和終端設備，能夠滿足同一個終端設備在一個調度單元內使用具有不同子載波間隔的資源傳輸數據。A method, a network device and a terminal device for transmitting data, the method comprising: sending resource configuration information to the terminal device, the resource configuration information being used to indicate a plurality of resource subbands used for data transmission in a scheduling unit, and the plurality of resources Each resource subband in the subband is composed of continuous physical resource blocks in the frequency domain, and at least two resource subbands in the multiple resource subbands have different subcarrier intervals; on the multiple resource subbands , To transmit the data with the terminal device. The method, network device, and terminal device of the embodiment of the present invention can satisfy the requirement that the same terminal device uses resources with different subcarrier intervals to transmit data in one scheduling unit.

Description

傳輸數據的方法、網絡設備和終端設備Method for transmitting data, network equipment and terminal equipment

本發明實施例涉及通信領域，尤其涉及傳輸數據的方法、網絡設備和終端設備。The embodiments of the present invention relate to the field of communications, in particular to a method for transmitting data, a network device, and a terminal device.

在現有長期演進(Long Term Evolution，LTE)系統中，所有用於傳輸數據的資源分配都是基於相同的子載波間隔，不能滿足第五代(5G)通信系統中不同子載波複用的要求。In the existing Long Term Evolution (LTE) system, all resource allocations used for data transmission are based on the same subcarrier interval, which cannot meet the requirements of different subcarrier multiplexing in the fifth generation (5G) communication system.

有鑑於此，本發明實施例提供了一種傳輸數據的方法、網絡設備和終端設備，能夠滿足同一個終端設備在一個調度單元內使用具有不同子載波間隔的資源傳輸數據。In view of this, the embodiments of the present invention provide a data transmission method, network equipment, and terminal equipment, which can satisfy the requirement that the same terminal equipment uses resources with different subcarrier intervals to transmit data in a scheduling unit.

第一方面，提供了一種傳輸數據的方法，該方法包括：向終端設備發送資源配置信息，該資源配置信息用於指示在調度單元內用於傳輸數據的多個資源子帶，該多個資源子帶中的每個資源子帶在頻域上由連續的物理資源塊構成，該多個資源子帶中的至少兩個資源子帶具有不同的子載波間隔；在該多個資源子帶上，與該終端設備進行該數據的傳輸。In a first aspect, a method for transmitting data is provided. The method includes: sending resource configuration information to a terminal device, where the resource configuration information is used to indicate a plurality of resource subbands used to transmit data in a scheduling unit, and the plurality of resources Each resource subband in the subband is composed of continuous physical resource blocks in the frequency domain, and at least two resource subbands in the multiple resource subbands have different subcarrier intervals; on the multiple resource subbands , To transmit the data with the terminal device.

這裡的一個調度單元可以是指在頻域上的具有一定寬度一個或多個資源塊，在時域上不作限定。該頻域調度單元可以佔據整個系統帶寬，也可以佔據系統帶寬的一部分，該頻域調度單元的寬度最小是一個基本的物理資源塊。A scheduling unit here may refer to one or more resource blocks with a certain width in the frequency domain, and is not limited in the time domain. The frequency domain scheduling unit may occupy the entire system bandwidth or a part of the system bandwidth, and the minimum width of the frequency domain scheduling unit is a basic physical resource block.

該資源子帶可以是由具有相同頻域寬度的連續的物理資源塊構成，也可以由具有相同頻域寬度但不連續的物理資源塊構成。The resource subband may be composed of continuous physical resource blocks having the same frequency domain width, or may be composed of physical resource blocks having the same frequency domain width but not continuous.

通過在一個調度單元內為終端設備配置具有不同子載波間隔的資源子帶來傳輸數據，能夠更好地支持具有多種屬性的本地頻域連續資源分配。By configuring resource sub-bands with different sub-carrier intervals for the terminal device in a scheduling unit to transmit data, it can better support the local frequency domain continuous resource allocation with multiple attributes.

在一種可能的實現方式中，該資源配置信息包括第一位置指示信息，該第一位置指示信息用於指示該多個資源子帶中的第一資源子帶在頻域上的位置。In a possible implementation manner, the resource configuration information includes first position indication information, and the first position indication information is used to indicate the position in the frequency domain of the first resource subband of the plurality of resource subbands.

該資源配置信息中包括與每一個資源子帶對應的位置指示信息，該資源配置信息還可以包括用於指示為終端設備分配的資源子帶數目的參數。The resource configuration information includes location indication information corresponding to each resource subband, and the resource configuration information may also include a parameter for indicating the number of resource subbands allocated to the terminal device.

在一種可能的實現方式中，該第一位置指示信息包括第一指示信息和第二指示信息，該第一指示信息用於指示該調度單元內在頻域上包括該第一資源子帶的頻域參考物理資源塊，該頻域參考物理資源塊的子載波間隔為系統預配置的最大子載波間隔的倍數；該第二指示信息用於指示該第一資源子帶包括的物理資源塊在該第一指示信息指示的起始頻域參考物理資源塊中的位置以及該第一資源子帶包括的物理資源塊在該第一指示信息指示的結束頻域參考物理資源塊中的位置。In a possible implementation manner, the first position indication information includes first indication information and second indication information, and the first indication information is used to indicate that the scheduling unit includes the frequency domain of the first resource subband in the frequency domain. With reference to the physical resource block, the frequency domain reference physical resource block has a subcarrier interval that is a multiple of the maximum subcarrier interval pre-configured by the system; the second indication information is used to indicate that the physical resource block included in the first resource subband is in the first resource subband. The position in the start frequency domain reference physical resource block indicated by the indication information and the position of the physical resource block included in the first resource subband in the end frequency domain reference physical resource block indicated by the first indication information.

這裡的頻域參考物理資源塊可以是一個虛擬的劃分調度單元的單位，也可以是由網絡設備實際配置的資源的單位。The frequency domain reference physical resource block here may be a virtual unit of dividing scheduling units, or may be a unit of resources actually configured by the network device.

兩級資源指示方式可以兼容具有不同子載波間隔的資源，通用並且簡單。The two-level resource indication method can be compatible with resources with different subcarrier intervals, and is versatile and simple.

在一種可能的實現方式中，該第一指示信息為第一比特表，該第一比特表中的每個比特位對應于該調度單元中的每個頻域參考物理資源塊，該第一比特表中多個連續的第一比特位取第一值表示對應的頻域參考物理資源塊包括該第一資源子帶的物理資源塊。In a possible implementation manner, the first indication information is a first bit table, each bit in the first bit table corresponds to each frequency domain reference physical resource block in the scheduling unit, and the first bit Taking a first value for multiple consecutive first bits in the table indicates that the corresponding frequency domain reference physical resource block includes the physical resource block of the first resource subband.

在一種可能的實現方式中，該第一指示信息具體用於指示該起始頻域參考物理資源塊在頻域上的位置和該結束頻域參考物理資源塊在頻域上的位置，或該第二指示信息具體用於指示該起始頻域參考物理資源塊在頻域上的位置和包括該第一資源子帶的頻域參考物理資源塊的數目。In a possible implementation manner, the first indication information is specifically used to indicate the position of the starting frequency domain reference physical resource block in the frequency domain and the position of the ending frequency domain reference physical resource block in the frequency domain, or the The second indication information is specifically used to indicate the position of the starting frequency domain reference physical resource block in the frequency domain and the number of frequency domain reference physical resource blocks including the first resource subband.

在一種可能的實現方式中，該第二指示信息為第二比特表和第三比特表，該第二比特表和該第三比特表中的一個比特位均對應于該第一資源子帶包括的一個物理資源塊，該第二比特表中比特位取第二值表示對應的物理資源塊屬該起始頻域參考物理資源塊，該第三比特表中比特位取第三值表示對應的物理資源塊屬該結束頻域參考物理資源塊。In a possible implementation manner, the second indication information is a second bit table and a third bit table, and one bit in the second bit table and the third bit table both corresponds to the first resource subband including A physical resource block in the second bit table, a bit in the second bit table takes a second value to indicate that the corresponding physical resource block belongs to the starting frequency domain reference physical resource block, and a bit in the third bit table takes a third value to indicate the corresponding The physical resource block belongs to the end frequency domain reference physical resource block.

在一種可能的實現方式中，若該多個資源子帶中第二資源子帶與該第一資源子帶在頻域上位於不重疊的頻域參考物理資源塊，則該第一比特表中多個連續的第二比特位取第四值表示對應的頻域參考物理資源塊在頻域上包括該第二資源子帶包括的物理資源塊。In a possible implementation manner, if the second resource subband and the first resource subband in the multiple resource subbands are located in non-overlapping frequency domain reference physical resource blocks in the frequency domain, then the first bit table The fourth value of the multiple consecutive second bits indicates that the corresponding frequency domain reference physical resource block includes the physical resource block included in the second resource subband in the frequency domain.

在一種可能的實現方式中，若該多個資源子帶中第二資源子帶與該第一資源子帶在頻域上位於重疊的頻域參考物理資源塊，則該資源配置信息還包括第四比特表，該第四比特表中的每個比特位對應于該調度單元中的每個頻域參考物理資源塊，該第四比特表中多個連續的第三比特位取第五值表示對應的頻域參考物理資源塊在頻域上包括該第二資源子帶包括的物理資源塊。In a possible implementation manner, if the second resource subband and the first resource subband in the plurality of resource subbands are located in an overlapping frequency domain reference physical resource block in the frequency domain, the resource configuration information further includes the first resource subband. A four-bit table, each bit in the fourth bit table corresponds to each frequency domain reference physical resource block in the scheduling unit, and multiple consecutive third bits in the fourth bit table take a fifth value to indicate The corresponding frequency domain reference physical resource block includes the physical resource block included in the second resource subband in the frequency domain.

在一種可能的實現方式中，該第一位置指示信息具體用於指示該第一資源子帶在頻域上的起始物理資源塊和該第一資源子帶包括的物理資源塊的數目，或該第一位置指示信息具體用於指示該第一資源子帶在頻域上的起始物理資源塊和該第一資源子帶在頻域上的結束物理資源塊。In a possible implementation manner, the first position indication information is specifically used to indicate the starting physical resource block of the first resource subband in the frequency domain and the number of physical resource blocks included in the first resource subband, or The first position indication information is specifically used to indicate the start physical resource block of the first resource subband in the frequency domain and the end physical resource block of the first resource subband in the frequency domain.

在一種可能的實現方式中，該第一位置指示信息具體用於指示該第一資源子帶在頻域上的起始物理資源塊，包括：指示起始頻域參考物理資源塊和該起始物理資源塊在該起始頻域參考物理資源塊中的位置，該起始頻域參考物理資源塊為在頻域上包括該起始物理資源塊的頻域參考物理資源塊；該第一位置指示信息具體用於指示該第一資源子帶在頻域上的結束物理資源塊，包括：指示結束頻域參考物理資源塊和該結束物理資源塊在該結束頻域參考物理資源塊中的位置，該結束頻域參考物理資源塊為在頻域上包括該結束物理資源塊的頻域參考物理資源塊；頻域參考物理資源塊的子載波間隔為系統預配置的最大子載波間隔的倍數。In a possible implementation manner, the first position indication information is specifically used to indicate the start physical resource block of the first resource subband in the frequency domain, including: indicating the start frequency domain reference physical resource block and the start The position of the physical resource block in the starting frequency domain reference physical resource block, and the starting frequency domain reference physical resource block is a frequency domain reference physical resource block including the starting physical resource block in the frequency domain; the first position The indication information is specifically used to indicate the ending physical resource block of the first resource subband in the frequency domain, including: indicating the ending frequency domain reference physical resource block and the position of the ending physical resource block in the ending frequency domain reference physical resource block The end frequency domain reference physical resource block is a frequency domain reference physical resource block including the end physical resource block in the frequency domain; the subcarrier interval of the frequency domain reference physical resource block is a multiple of the maximum subcarrier interval preconfigured by the system.

第二方面提供了一種傳輸數據的方法，該方法包括：接收網絡設備發送的資源分配信息，該資源配置信息用於指示在調度單元內用於傳輸數據的多個資源子帶，該多個資源子帶中的每個資源子帶在頻域上由連續的物理資源塊構成，該多個資源子帶中的至少兩個資源子帶具有不同的子載波間隔；根據該資源分配信息，與該網絡設備進行該數據的傳輸。A second aspect provides a method for transmitting data. The method includes: receiving resource allocation information sent by a network device, where the resource configuration information is used to indicate a plurality of resource subbands used for data transmission in a scheduling unit, and the plurality of resources Each resource subband in the subband is composed of continuous physical resource blocks in the frequency domain, and at least two resource subbands in the multiple resource subbands have different subcarrier intervals; according to the resource allocation information, the The network equipment transmits the data.

通過在一個調度單元內為終端設備指示用於傳輸數據的不同子載波間隔的資源子帶，能夠更好地支持具有多種屬性的本地頻域連續資源分配。By instructing the resource subbands of different subcarrier intervals for transmitting data for the terminal device in one scheduling unit, it is possible to better support the local frequency domain continuous resource allocation with multiple attributes.

在一種可能的實現方式中，該資源配置信息包括第一位置指示信息，該第一位置指示信息用於指示該多個資源子帶中的第一資源子帶在頻域上的位置，該根據該資源分配信息，與該網絡設備進行該數據的傳輸，包括：根據該第一位置指示信息，在該第一資源子帶上與該網絡設備進行該數據中部分數據的傳輸。In a possible implementation manner, the resource configuration information includes first position indication information, and the first position indication information is used to indicate the position in the frequency domain of the first resource subband among the plurality of resource subbands. The resource allocation information and the transmission of the data with the network device include: transmitting part of the data with the network device on the first resource subband according to the first location indication information.

在一種可能的實現方式中，若該多個資源子帶中第二資源子帶與該第一資源子帶在頻域上位於不重疊的頻域參考物理資源塊，則該第一比特表中多個連續的第二比特位取第四值表示對應的頻域參考物理資源塊在頻域上包括該第二資源子帶包括的物理資源塊。In a possible implementation manner, if the second resource subband and the first resource subband in the plurality of resource subbands are located in non-overlapping frequency domain reference physical resource blocks in the frequency domain, then the first bit table The fourth value of the multiple consecutive second bits indicates that the corresponding frequency domain reference physical resource block includes the physical resource block included in the second resource subband in the frequency domain.

第三方面，提供了一種網絡設備，用於執行上述第一方面或第一方面的任意可能的實現方式中的方法。具體地，該網絡設備包括用於執行上述第一方面或第一方面的任意可能的實現方式中的方法的單元。In a third aspect, a network device is provided, which is used to execute the foregoing first aspect or any possible implementation of the first aspect. Specifically, the network device includes a unit for executing the foregoing first aspect or any possible implementation manner of the first aspect.

第四方面，提供了一種終端設備，用於執行上述第二方面或第一方面的任意可能的實現方式中的方法。具體地，該終端設備包括用於執行上述第二方面或第二方面的任意可能的實現方式中的方法的單元。In a fourth aspect, a terminal device is provided for executing the method in any possible implementation manner of the second aspect or the first aspect. Specifically, the terminal device includes a unit for executing the foregoing second aspect or any possible implementation manner of the second aspect.

第五方面，提供了一種網絡設備，該網絡設備包括：存儲器、處理器和收發器。其中，存儲器、處理器和收發器通過內部連接通路互相通信，傳遞控制和/或數據信號。該存儲器用於存儲指令，該處理器用於執行該存儲器存儲的指令，當該指令被執行時，該處理器控制收發器接收輸入的數據和信息，輸出操作結果等數據。In a fifth aspect, a network device is provided, and the network device includes a memory, a processor, and a transceiver. Among them, the memory, the processor, and the transceiver communicate with each other through internal connection paths to transfer control and/or data signals. The memory is used to store instructions, and the processor is used to execute instructions stored in the memory. When the instructions are executed, the processor controls the transceiver to receive input data and information, and output data such as operation results.

第六方面，提供了一種終端設備，該終端設備包括：存儲器、處理器和收發器。其中，存儲器、處理器和收發器通過內部連接通路互相通信，傳遞控制和/或數據信號，該存儲器用於存儲指令，該處理器用於執行該存儲器存儲的指令，當該指令被執行時，該處理器控制收發器接收輸入的數據和信息，輸出操作結果等數據。In a sixth aspect, a terminal device is provided. The terminal device includes a memory, a processor, and a transceiver. Among them, the memory, the processor, and the transceiver communicate with each other through internal connection paths to transfer control and/or data signals. The memory is used to store instructions, and the processor is used to execute the instructions stored in the memory. When the instructions are executed, the The processor controls the transceiver to receive input data and information, and output data such as operation results.

第七方面，提供了一種計算機存儲介質，用於儲存為上述方法所用的計算機軟體指令，其包含用於執行上述方面所設計的程式。In a seventh aspect, a computer storage medium is provided for storing computer software instructions used in the above method, which includes the program designed for executing the above aspect.

本申請的這些方面或其他方面在以下實施例的描述中會更加簡明易懂。These and other aspects of the application will be more concise and understandable in the description of the following embodiments.

下面將結合本發明實施例中的附圖，對本發明實施例中的技術方案進行清楚、完整地描述。The technical solutions in the embodiments of the present invention will be clearly and completely described below in conjunction with the accompanying drawings in the embodiments of the present invention.

應理解，本發明實施例的技術方案可以應用於各種通信系統，例如：全球移動通訊（Global System of Mobile communication，GSM）系統、碼分多址（Code Division Multiple Access，CDMA）系統、寬帶碼分多址（Wideband Code Division Multiple Access，WCDMA）系統、通用分組無線業務（General Packet Radio Service，GPRS）、長期演進（Long Term Evolution，LTE）系統、LTE頻分雙工（Frequency Division Duplex，FDD）系統、LTE時分雙工（Time Division Duplex，TDD）、通用移動通信系統（Universal Mobile Telecommunication System，UMTS）、全球互聯微波接入（Worldwide Interoperability for Microwave Access，WiMAX）通信系統或未來的5G系統等。It should be understood that the technical solutions of the embodiments of the present invention can be applied to various communication systems, such as: Global System of Mobile communication (GSM) system, Code Division Multiple Access (CDMA) system, and broadband code division. Multiple access (Wideband Code Division Multiple Access, WCDMA) system, General Packet Radio Service (GPRS), Long Term Evolution (LTE) system, LTE Frequency Division Duplex (FDD) system , LTE Time Division Duplex (TDD), Universal Mobile Telecommunication System (UMTS), Worldwide Interoperability for Microwave Access (WiMAX) communication system or future 5G systems, etc.

特別地，本發明實施例的技術方案可以應用於各種基於非正交多址接入技術的通信系統，例如稀疏碼多址接入（Sparse Code Multiple Access，SCMA）系統、低密度簽名（Low Density Signature，LDS）系統等，當然SCMA系統和LDS系統在通信領域也可以被稱為其他名稱；進一步地，本發明實施例的技術方案可以應用於採用非正交多址接入技術的多載波傳輸系統，例如採用非正交多址接入技術正交頻分複用（Orthogonal Frequency Division Multiplexing，OFDM）、濾波器組多載波（Filter Bank Multi-Carrier，FBMC）、通用頻分複用（Generalized Frequency Division Multiplexing，GFDM）、濾波正交頻分複用（Filtered-OFDM，F-OFDM）系統等。In particular, the technical solutions of the embodiments of the present invention can be applied to various communication systems based on non-orthogonal multiple access technologies, such as sparse code multiple access (Sparse Code Multiple Access, SCMA) systems, and low density signatures (Low Density). Signature, LDS) system, etc. Of course, SCMA system and LDS system can also be called other names in the communication field; further, the technical solution of the embodiment of the present invention can be applied to multi-carrier transmission using non-orthogonal multiple access technology System, such as non-orthogonal multiple access technology Orthogonal Frequency Division Multiplexing (OFDM), Filter Bank Multi-Carrier (FBMC), Generalized Frequency Division Multiplexing (Generalized Frequency Division Multiplexing) Division Multiplexing, GFDM), filtered orthogonal frequency division multiplexing (Filtered-OFDM, F-OFDM) systems, etc.

本發明實施例中的終端設備可以指用戶設備（User Equipment，UE）、接入終端、用戶單元、用戶站、移動站、移動台、遠方站、遠程終端、移動設備、用戶終端、終端、無線通信設備、用戶代理或用戶裝置。接入終端可以是蜂窩電話、無繩電話、會話啟動協議（Session Initiation Protocol，SIP）電話、無線本地環路（Wireless Local Loop，WLL）站、個人數字處理（Personal Digital Assistant，PDA）、具有無線通信功能的手持設備、計算設備或連接到無線調制解調器的其它處理設備、車載設備、可穿戴設備，未來5G網絡中的終端設備或者未來演進的公用陸地移動通信網絡（Public Land Mobile Network，PLMN）中的終端設備等，本發明實施例並不限定。The terminal equipment in the embodiment of the present invention may refer to User Equipment (UE), access terminal, user unit, user station, mobile station, mobile station, remote station, remote terminal, mobile equipment, user terminal, terminal, wireless Communication equipment, user agent or user device. The access terminal can be a cellular phone, a cordless phone, a Session Initiation Protocol (SIP) phone, a wireless local loop (Wireless Local Loop, WLL) station, a personal digital assistant (PDA), and wireless communication. Functional handheld devices, computing devices or other processing devices connected to wireless modems, in-vehicle devices, wearable devices, terminal devices in the future 5G network or future evolution of the Public Land Mobile Network (PLMN) Terminal equipment, etc., are not limited in the embodiment of the present invention.

本發明實施例中的網絡設備可以是用於與終端設備通信的設備，該網絡設備可以是GSM或CDMA中的基站（Base Transceiver Station，BTS），也可以是WCDMA系統中的基站（NodeB，NB），還可以是LTE系統中的演進型基站（Evolutional NodeB，eNB或eNodeB），還可以是雲無線接入網絡（Cloud Radio Access Network，CRAN）場景下的無線控制器，或者該網絡設備可以為中繼站、接入點、車載設備、可穿戴設備以及未來5G網絡中的網絡設備或者未來演進的PLMN網絡中的網絡設備等，本發明實施例並不限定。The network device in the embodiment of the present invention may be a device used to communicate with terminal devices. The network device may be a base station (Base Transceiver Station, BTS) in GSM or CDMA, or a base station (NodeB, NB) in a WCDMA system. ), it can also be an evolved base station (Evolutional NodeB, eNB or eNodeB) in an LTE system, or a wireless controller in a cloud radio access network (Cloud Radio Access Network, CRAN) scenario, or the network equipment can be Relay stations, access points, in-vehicle devices, wearable devices, network devices in future 5G networks or network devices in future evolved PLMN networks, etc., are not limited in the embodiment of the present invention.

圖1是本發明實施例一個應用場景的示意圖。圖1中的通信系統可以包括終端設備10和網絡設備20。網絡設備20用於為終端設備10提供通信服務並接入核心網，終端設備10通過搜索網絡設備20發送的同步信號、廣播信號等而接入網絡，從而進行與網絡的通信。圖1中所示出的箭頭可以表示通過終端設備10與網絡設備20之間的蜂窩鏈路進行的上/下行傳輸。Fig. 1 is a schematic diagram of an application scenario of an embodiment of the present invention. The communication system in FIG. 1 may include a terminal device 10 and a network device 20. The network device 20 is used to provide communication services for the terminal device 10 and access the core network. The terminal device 10 accesses the network by searching for synchronization signals, broadcast signals, etc. sent by the network device 20, so as to communicate with the network. The arrows shown in FIG. 1 may indicate uplink/downlink transmission through the cellular link between the terminal device 10 and the network device 20.

隨著通信技術的不斷演進，未來通信系統中需要多樣化的業務種類，LTE系統中採用單一的子載波間隔已經無法滿足通信需求。與LTE系統不同，為了保持系統靈活性和前向兼容性，5G等未來無線通信系統中一個載波/小區/無線傳輸節點(Transmit Receive point，TRP)中可以由多種基礎參數集(numerology)以時分複用(Time Division Multiplexing，TDM)或頻分複用(Frequency Division Multiplexing，FDM)或者兩者結合的方式並存。不同的numerology通常採用不同的載波間隔，同一個終端也有可能在同一個調度單元內被分配使用具有不同子載波間隔的資源，而目前LTE系統中基於相同子載波間隔的資源分配方法不滿足這種要求。With the continuous evolution of communication technology, diversified service types are required in future communication systems, and the use of a single sub-carrier interval in the LTE system can no longer meet the communication requirements. Different from the LTE system, in order to maintain system flexibility and forward compatibility, a carrier/cell/transmit receiver point (TRP) in future wireless communication systems such as 5G can have multiple basic parameter sets (numerology) in time. Time Division Multiplexing (TDM) or Frequency Division Multiplexing (FDM) or a combination of the two coexist. Different numerology usually uses different carrier intervals. The same terminal may also be allocated to use resources with different subcarrier intervals in the same scheduling unit. However, the current resource allocation method based on the same subcarrier interval in the LTE system does not meet this requirement. Require.

圖2示出了根據本發明實施例的傳輸數據的方法100的示意性框圖。如圖2所示，該方法100可以由網絡設備執行，例如可以由基站執行，該方法100包括：Fig. 2 shows a schematic block diagram of a method 100 for transmitting data according to an embodiment of the present invention. As shown in FIG. 2, the method 100 may be executed by a network device, for example, may be executed by a base station, and the method 100 includes:

S110，向終端設備發送資源配置信息，所述資源配置信息用於指示在調度單元內用於傳輸數據的多個資源子帶，所述多個資源子帶中的每個資源子帶在頻域上由連續的物理資源塊構成，所述多個資源子帶中的至少兩個資源子帶具有不同的子載波間隔；S110. Send resource configuration information to the terminal device, where the resource configuration information is used to indicate multiple resource subbands used for data transmission in the scheduling unit, and each resource subband of the multiple resource subbands is in the frequency domain. The above is composed of continuous physical resource blocks, and at least two resource subbands in the multiple resource subbands have different subcarrier intervals;

S120，在所述多個資源子帶上，與所述終端設備進行所述數據的傳輸。S120. Perform the data transmission with the terminal device on the multiple resource subbands.

具體地，網絡設備可以根據系統預配置的多個子載波間隔在整個調度單元上劃分多個資源子帶，每個資源子帶是在頻域上由連續的物理資源塊構成，其中至少兩個資源子帶採用的子載波間隔不同。具體可參考圖3，如圖3所示，假設為終端設備在一個調度單元內配置了兩個資源子帶，第一資源子帶和第二資源子帶，其中第一資源子帶可以是由如圖3所示的多個連續的物理資源塊構成，第二資源子帶同樣是由如圖3所示的多個連續的物理資源塊構成。組成第一資源子帶的物理資源塊和組成第二資源子帶的物理資源塊的頻域寬度不同，例如，組成第一資源子帶的物理資源塊的頻域寬度可以是45kHz，組成第二資源子帶的物理資源塊的頻域寬度可以是30kHz。Specifically, the network device may divide multiple resource subbands on the entire scheduling unit according to multiple subcarrier intervals pre-configured by the system, and each resource subband is composed of continuous physical resource blocks in the frequency domain, of which at least two resources The sub-carrier interval used by the sub-band is different. Refer to Figure 3 for details. As shown in Figure 3, it is assumed that the terminal device configures two resource subbands in a scheduling unit, the first resource subband and the second resource subband, where the first resource subband may be As shown in FIG. 3, it is composed of multiple continuous physical resource blocks, and the second resource subband is also composed of multiple continuous physical resource blocks as shown in FIG. 3. The frequency domain widths of the physical resource blocks constituting the first resource subband and the physical resource blocks constituting the second resource subband are different. For example, the frequency domain width of the physical resource blocks constituting the first resource subband may be 45 kHz, which constitutes the second resource subband. The frequency domain width of the physical resource block of the resource subband may be 30 kHz.

應理解，這裡的一個調度單元可以是指在頻域上的具有一定寬度一個或多個資源塊，在時域上不作限定。該頻域調度單元可以佔據整個系統帶寬，也可以佔據系統帶寬的一部分，該頻域調度單元的寬度最小是一個基本的物理資源塊。It should be understood that a scheduling unit here may refer to one or more resource blocks with a certain width in the frequency domain, and is not limited in the time domain. The frequency domain scheduling unit may occupy the entire system bandwidth or a part of the system bandwidth, and the minimum width of the frequency domain scheduling unit is a basic physical resource block.

還應理解，這裡的數據可以是指上行數據，即終端設備可以通過網絡設備分配的多個資源子帶向網絡設備發送數據，也可以是指下行數據，即網絡設備也可以通過網絡設備分配的多個資源子帶向終端設備發送數據，本發明實施例對此不夠成限定。It should also be understood that the data here can refer to uplink data, that is, the terminal device can send data to the network device through multiple resource subbands allocated by the network device, or it can refer to the downlink data, that is, the network device can also be allocated by the network device. Multiple resource subbands send data to the terminal device, which is not sufficiently limited in the embodiment of the present invention.

因此，本發明實施例提供的傳輸數據的方法，通過在一個調度單元內劃分具有不同子載波間隔的資源子帶，用來傳輸數據，能夠更好地支持具有多種屬性的本地頻域連續資源分配。Therefore, the method for transmitting data provided by the embodiment of the present invention can better support local frequency domain continuous resource allocation with multiple attributes by dividing resource subbands with different subcarrier intervals in a scheduling unit for data transmission. .

可選地，在本發明實施例中，該資源配置信息包括第一位置指示信息，該第一位置指示信息用於指示該多個資源子帶中的第一資源子帶在頻域上的位置。Optionally, in the embodiment of the present invention, the resource configuration information includes first position indication information, and the first position indication information is used to indicate the position in the frequency domain of the first resource subband among the plurality of resource subbands .

所屬技術領域具有通知常識者理解，無論上行數據或者下行數據的傳輸，都需要進行資源調度，也就是網絡設備需要告訴終端設備系統資源分配過程，決定著終端設備什麼時候，在哪些資源上傳輸數據或者接收數據。在5G系統中，同一個終端設備在一個調度單元內很有可能需要在具有不同子載波間隔的資源，也就是本發明實施例提出的資源子帶上發送或接收數據，那麼網絡設備在向終端設備發送的資源配置信息中就包括了指示每一個資源子帶在該調度單元中頻域上的位置。例如，網絡設備給終端設備發送的資源配置信息中包括了兩個位置指示信息，分別指示如圖3所示的第一資源子帶和第二資源子帶的位置，具體地可以指示第一資源子帶包括的多個連續的物理資源塊在頻域上的位置以及第二資源子帶包括的多個連續的物理資源塊在頻域上的位置。Those with common knowledge in the technical field understand that no matter the transmission of uplink data or downlink data, resource scheduling is required, that is, the network device needs to inform the terminal device of the system resource allocation process, which determines when the terminal device transmits data on which resources Or receive data. In a 5G system, the same terminal device in a scheduling unit is likely to need to send or receive data on resources with different subcarrier intervals, that is, the resource subband proposed in the embodiment of the present invention, then the network device is sending or receiving data to the terminal. The resource configuration information sent by the device includes an indication of the position of each resource subband in the frequency domain in the scheduling unit. For example, the resource configuration information sent by the network device to the terminal device includes two position indication information, which respectively indicate the positions of the first resource subband and the second resource subband as shown in FIG. 3, and specifically may indicate the first resource The positions of the multiple continuous physical resource blocks included in the subband in the frequency domain and the positions of the multiple continuous physical resource blocks included in the second resource subband in the frequency domain.

可選地，在本發明實施例中，該第一位置指示信息包括第一指示信息和第二指示信息，該第一指示信息用於指示該調度單元內在頻域上包括該第一資源子帶的頻域參考物理資源塊，該頻域參考物理資源塊的子載波間隔為系統預配置的最大子載波間隔的倍數；該第二指示信息具體用於指示該第一資源子帶包括的物理資源塊在該第一指示信息指示的起始頻域參考物理資源塊中的位置以及該第一資源子帶包括的物理資源塊在該第一指示信息指示的結束頻域參考物理資源塊中的位置。Optionally, in the embodiment of the present invention, the first position indication information includes first indication information and second indication information, and the first indication information is used to indicate that the scheduling unit includes the first resource subband in the frequency domain. The frequency domain reference physical resource block, the subcarrier interval of the frequency domain reference physical resource block is a multiple of the maximum subcarrier interval preconfigured by the system; the second indication information is specifically used to indicate the physical resources included in the first resource subband The position of the block in the starting frequency domain reference physical resource block indicated by the first indication information and the position of the physical resource block included in the first resource subband in the ending frequency domain reference physical resource block indicated by the first indication information .

應理解，這裡的頻域參考物理資源塊可以是一個虛擬的劃分調度單元的單位，也可以是由網絡設備實際配置的資源的單位。例如，網絡設備在向終端設備發送資源配置信息之前還可以向終端設備以廣播的方式通知頻域參考物理資源塊的頻域寬度為多少。網絡設備可以在一個調度單元的整個頻域上分配一個資源塊，該資源塊是由多個頻域參考物理資源塊組成的。如圖4所示，網絡設備在一個調度單元內配置了一個資源塊，該資源塊是由3個頻域參考物理資源塊組成的，每個頻域參考資源塊的頻域寬度可以是整個系統預配置的最大子載波間隔。舉例來說，若系統中預配置的子載波間隔包括15kHz、30kHz、60kHz以及120kHz，那麼網絡設備可以配置一個由多個頻域參考物理資源塊組成的資源塊，每一個頻域參考物理資源塊的頻域寬度可可以是120kHz。網絡設備也可以不實際劃分一個由頻域參考物理資源塊組成的資源塊，直接將調度單元按頻域參考物理資源塊劃分，例如，該虛擬的頻域參考物理資源塊的頻域寬度可以是240kHz。It should be understood that the frequency domain reference physical resource block here may be a virtual unit of dividing scheduling units, or may be a unit of resources actually configured by a network device. For example, the network device may also notify the terminal device of the frequency domain width of the frequency domain reference physical resource block in a broadcast manner before sending the resource configuration information to the terminal device. The network device may allocate a resource block on the entire frequency domain of a scheduling unit, and the resource block is composed of multiple frequency domain reference physical resource blocks. As shown in Figure 4, the network device configures a resource block in a scheduling unit. The resource block is composed of 3 frequency domain reference physical resource blocks. The frequency domain width of each frequency domain reference resource block can be the entire system. The pre-configured maximum subcarrier spacing. For example, if the pre-configured subcarrier intervals in the system include 15kHz, 30kHz, 60kHz, and 120kHz, the network device can configure a resource block composed of multiple frequency domain reference physical resource blocks, and each frequency domain reference physical resource block The frequency domain width can be 120kHz. The network device may also not actually divide a resource block composed of frequency domain reference physical resource blocks, but directly divide the scheduling unit into frequency domain reference physical resource blocks. For example, the frequency domain width of the virtual frequency domain reference physical resource block may be 240kHz.

應理解，在本發明實施例中，該多個資源子帶可以是包括由系統內預配置的所有子載波間隔構成的資源，也可以只包括部分預配置的子載波間隔構成的資源。如上所述，網絡設備可以為終端設備直接配置分別由15kHz、30kHz、60kHz以及120kHz構成的資源子帶，也可以根據終端需求只配置15kHz和30kHz構成的資源子帶。而頻域參考物理資源塊的頻域寬度可以系統內最大子載波間隔的倍數，也可以是只要大於或等於配置的資源子帶中所採用的最大子載波間隔即可，本發明對此不夠成限定。It should be understood that, in the embodiment of the present invention, the multiple resource subbands may include resources composed of all pre-configured sub-carrier intervals in the system, or may only include resources composed of partially pre-configured sub-carrier intervals. As described above, the network device can directly configure the resource subbands composed of 15kHz, 30kHz, 60kHz, and 120kHz for the terminal device, or only configure the resource subbands composed of 15kHz and 30kHz according to the needs of the terminal. The frequency domain width of the frequency domain reference physical resource block can be a multiple of the maximum subcarrier spacing in the system, or it can be greater than or equal to the maximum subcarrier spacing used in the configured resource subband. The present invention is not sufficient for this. limited.

可以使用兩級資源指示方式來確定資源子帶在頻域上的位置。A two-level resource indication method can be used to determine the position of the resource subband in the frequency domain.

第一級資源指示可以使用頻域參考物理資源塊來粗略指示資源子帶在頻域中的配置。作為一個可選地實施例，使用一個比特表，該比特表的長度可以是當前調度單元內包括的總的頻域參考物理資源塊數目。比特表中的每一位對應於一個頻域參考物理資源塊。具體地，可以將每個比特位取值為1用來表示該頻域參考物理資源塊中包含某一資源子帶的資源，反之則不包含。假設一個調度單元包括4個頻域參考物理資源塊，若用來指示包括第一資源子帶的頻域參考物理資源塊的比特表為0111，則表示在整個調度單元上從第二個頻域參考物理資源塊至第四個頻域參考物理資源塊在頻域上包括該第一資源子帶的資源。作為另一個可選地實施例，還可以通過指示包括某個資源子帶的起始物理資源塊的頻域參考物理資源塊在頻域上的位置以及包括某個資源子帶的結束物理資源塊的頻域參考物理資源塊在頻域上的位置，或者還可以通過指示包括某個資源子帶的起始物理資源塊的頻域參考物理資源塊在頻域上的位置以及包括該資源子帶的物理資源塊的所有頻域參考物理資源塊的數目。換句話說，可以通過包括某個資源子帶的起始頻域參考物理資源塊的指針和包括該資源子帶的結束頻域參考物理資源塊的指針，或者可以通過包括某個資源子帶的起始頻域參考物理資源塊的指針和包括該資源子帶的頻域參考物理資源塊的數目。應理解，若一個資源子帶指存在於一個頻域參考物理資源塊內，則可以簡單地使用這個頻域參考物理資源塊的指針來作為一級指示。The first-level resource indication may use the frequency domain reference physical resource block to roughly indicate the configuration of the resource subband in the frequency domain. As an optional embodiment, a bit table is used, and the length of the bit table may be the total number of frequency domain reference physical resource blocks included in the current scheduling unit. Each bit in the bit table corresponds to a frequency domain reference physical resource block. Specifically, the value of each bit can be 1 to indicate that the frequency domain reference physical resource block contains a resource of a certain resource subband, and vice versa. Assuming that a scheduling unit includes 4 frequency domain reference physical resource blocks, if the bit table used to indicate the frequency domain reference physical resource block including the first resource subband is 0111, it means that from the second frequency domain on the entire scheduling unit The reference physical resource block to the fourth frequency domain reference physical resource block include the resources of the first resource subband in the frequency domain. As another optional embodiment, the position of the reference physical resource block in the frequency domain including the frequency domain reference physical resource block of a certain resource subband and the ending physical resource block including the certain resource subband may also be indicated by The position of the frequency domain reference physical resource block in the frequency domain, or the position of the frequency domain reference physical resource block in the frequency domain including the starting physical resource block of a certain resource subband and the position of the resource subband The number of reference physical resource blocks in all frequency domains of the physical resource blocks. In other words, the pointer of the physical resource block can be referenced by including the start frequency domain of a certain resource subband and the pointer of the physical resource block can be referenced by the end frequency domain including the resource subband, or the pointer of the physical resource block can be referenced by including a certain resource subband. The pointer of the starting frequency domain reference physical resource block and the number of frequency domain reference physical resource blocks including the resource subband. It should be understood that if a resource subband indicator exists in a frequency domain reference physical resource block, the pointer of this frequency domain reference physical resource block can be simply used as the first level indicator.

第二級資源指示可以使用資源子帶所包含的物理資源塊在相應頻域參考物理資源塊內的位置來進一步指示資源子帶在頻域上的位置。具體地，包括某個資源子帶分配的起始物理資源塊在起始頻域參考物理資源塊內的位置以及該資源子帶分配的結束物理資源塊在結束頻域參考物理資源塊中的位置。舉例來說，一個頻域參考物理資源塊包括某個資源子帶的8個物理資源塊，那這個起始物理資源塊在該起始頻域參考物理資源塊的位置可以是1-8中的任一位置，也就是說可以通過3個比特位來表示。同樣地，表示結束物理資源塊在結束頻域參考物理資源塊中的位置也可以通過3個比特位來表示。The second-level resource indication may use the position of the physical resource block contained in the resource subband in the corresponding frequency domain reference physical resource block to further indicate the position of the resource subband in the frequency domain. Specifically, it includes the position of the starting physical resource block of a certain resource subband allocation in the starting frequency domain reference physical resource block and the position of the ending physical resource block of the resource subband allocation in the ending frequency domain reference physical resource block . For example, if a frequency domain reference physical resource block includes 8 physical resource blocks of a certain resource subband, the position of this starting physical resource block in the starting frequency domain reference physical resource block can be 1-8 Any position, that is to say, can be represented by 3 bits. Similarly, the position of the ending physical resource block in the ending frequency domain reference physical resource block can also be expressed by 3 bits.

可選地，也可以分別通過兩個小的比特表來分別表示某個資源子帶包括的物理資源塊在起始頻域參考物理資源塊中的位置以及某個資源子帶包括的物理資源塊在結束頻域參考物理資源塊中的位置。具體地，該每個比特表的長度就是一個頻域參考物理資源塊包括的某個資源子帶的物理資源塊的數目。比特位取1就表示對應的物理資源塊屬該資源子帶。Optionally, two small bit tables may also be used to respectively indicate the position of the physical resource block included in a certain resource subband in the starting frequency domain reference physical resource block and the physical resource block included in a certain resource subband Refer to the position in the physical resource block in the end frequency domain. Specifically, the length of each bit table is the number of physical resource blocks in a certain resource subband included in a frequency domain reference physical resource block. If the bit is set to 1, it means that the corresponding physical resource block belongs to the resource subband.

應理解，上述關於比特表的取值以及兩級資源指示方式僅僅只是為了便於理解舉例說明的，本發明實施例並不限於此。It should be understood that the foregoing values of the bit table and the two-level resource indication manner are merely illustrative for ease of understanding, and the embodiment of the present invention is not limited thereto.

可選地，在本發明實施例中，如果各個資源子帶位於不重疊的頻域參考物理資源塊，一級資源指示可以使用一個比特表來表示所有的資源子帶。如果資源子帶處於重疊的頻域參考物理資源塊內，則一級資源指示可以考慮使用單獨的比特表來表示不同的資源子帶。Optionally, in the embodiment of the present invention, if each resource subband is located in a non-overlapping frequency domain reference physical resource block, the first level resource indication may use a bit table to indicate all resource subbands. If the resource subbands are in overlapping frequency domain reference physical resource blocks, the level 1 resource indication may consider using a separate bit table to represent different resource subbands.

兩級資源指示方法使用的總的比特數可以歸納如下：假定這個系統帶寬中有N個頻域參考資源塊（對應頻域參考子載波間隔f），當前終端的資源配置包含了K個資源子帶，對應的子載波間隔分別為：f1、f2、……fk ，每個頻域參考資源塊包含的對應于每個資源子帶物理資源塊的數目分別為M1、M2、……Mk，第一級使用的比特表需要N個比特，第二級各個資源子帶確定起始和結束位置需要的比特總數，這樣總共需要的比特數為。The total number of bits used by the two-level resource indication method can be summarized as follows: Assume that there are N frequency domain reference resource blocks in the system bandwidth (corresponding to the frequency domain reference subcarrier interval f), and the current terminal resource configuration includes K resource subcarriers. The corresponding sub-carrier intervals are: f1, f2, ... fk, and the number of physical resource blocks corresponding to each resource sub-band contained in each frequency domain reference resource block is M1, M2, ... Mk, respectively. The bit table used in the first level requires N bits, and each resource subband of the second level determines the total number of bits required for the start and end positions, so that the total number of bits required is.

可選地，在本發明實施例中，還可以通過直接指示每個資源子帶包括的起始物理資源塊在頻域上的位置以及每個資源子帶包括的物理資源快的數目，或者也可以通過某個資源子帶包括的起始物理資源塊在頻域上的位置和對應的結束物理資源塊的位置來指示。Optionally, in the embodiment of the present invention, the position of the starting physical resource block included in each resource subband in the frequency domain and the number of physical resource blocks included in each resource subband may be directly indicated, or It can be indicated by the position of the starting physical resource block in the frequency domain and the position of the corresponding ending physical resource block included in a certain resource subband.

進一步地，某個資源子帶的物理資源塊的起始位置可以由包含起始物理資源塊的頻域參考物理資源塊位置，以及該資源子帶的起始物理資源塊在該頻域參考物理資源塊裡的相對位置來確定；同樣地，某個資源子帶的物理資源塊的結束位置可以由包含結束物理資源塊的頻域參考物理資源塊位置，以及該資源子帶的結束物理資源塊在該頻域參考物理資源塊裡的相對位置來確定的。Further, the starting position of the physical resource block of a certain resource subband can be determined by the frequency domain reference physical resource block position containing the starting physical resource block, and the starting physical resource block of the resource subband refers to the physical resource block in the frequency domain. The relative position in the resource block is determined; similarly, the end position of the physical resource block of a certain resource subband can be determined by the frequency domain reference physical resource block position containing the end physical resource block, and the end physical resource block of the resource subband It is determined by referring to the relative position in the physical resource block in the frequency domain.

具體地，如圖5所示，仍然是將頻域先按頻域參考物理資源塊劃分, 然後確定一個資源子帶的起始位置, 如圖5所示的資源子帶內所分配物理資源起始於第k個頻域參考物理資源塊對應的頻域內（假定頻域參考物理資源塊起始指針是0）, 並且在該個頻域參考物理資源塊內的起始偏移是n，假定頻域參考物理資源塊包含4個對應于該資源子帶的物理資源塊，那麼起始物理資源塊的絕對指針就是4k+n，另外分配的資源長度5就是物理資源塊的數目。Specifically, as shown in FIG. 5, the frequency domain is still divided according to frequency domain reference physical resource blocks, and then the starting position of a resource subband is determined, starting from the physical resources allocated in the resource subband as shown in FIG. 5 Start in the frequency domain corresponding to the k-th frequency domain reference physical resource block (assuming that the start pointer of the frequency domain reference physical resource block is 0), and the start offset in this frequency domain reference physical resource block is n, Assuming that the frequency domain reference physical resource block contains 4 physical resource blocks corresponding to the resource subband, then the absolute pointer of the starting physical resource block is 4k+n, and the allocated resource length 5 is the number of physical resource blocks.

直接指示方式所使用的比特數歸納如下：假定這個系統帶寬中有N個頻域參考資源塊（對應頻域參考子載波間隔f），當前終端的資源配置包含了K個資源子帶，對應的子載波間隔分別為：f1、f2、……fk，每個頻域參考資源塊包含的對應于每個資源子帶物理資源塊的數目分別為M1、M2、……Mk，這樣總共需要的比特數為。 The number of bits used in the direct indication method is summarized as follows: Assume that there are N frequency domain reference resource blocks in the system bandwidth (corresponding to the frequency domain reference subcarrier interval f), and the current terminal resource configuration includes K resource subbands, and the corresponding The sub-carrier intervals are: f1, f2,...fk, the number of physical resource blocks corresponding to each resource subband contained in each frequency domain reference resource block is M1, M2,...Mk, so the total bits required The number is.

對比兩級資源指示方式和直接指示方式所需的比特數，可以注意到差別在於第一項，當N比較大，而K比較小時，直接指示方式需要的比特數會比兩級資源指示方式要少。反之則兩級資源指示方式需要的比特數可能會比直接指示方式要少。比如整個系統帶寬是80MHz，如果使用60kHz做頻域參考資源塊的子載頻間隔，則在頻域上有128個頻域參考資源塊，假如分配了4個資源子帶，兩級資源指示方式所需第一項資源N=128>2*4*log₂(128)(直接指示方式所需第一項資源)。但如果一個頻域參考物理資源塊在頻域上的寬度是16*180kHz=2880kHz，那麼整個80MHz帶寬會包含32個頻域參考物理資源塊，這時兩級資源指示方式所需第一項資源N=32<2*4*log₂(32)(直接指示方式所需第一項資源)。總的來說，兩級資源指示方式在參考物理資源塊數目較小時，向一個終端同時分配多個不同載頻間隔的資源子帶可以使用較少的比特數，而直接指示方式，在參考物理資源塊數目較大時，向一個終端分配多個不同載頻間隔的資源塊時可以使用較少的比特數。 Comparing the number of bits required for the two-level resource indication mode and the direct indication mode, it can be noted that the difference lies in the first item. When N is relatively large and K is relatively small, the number of bits required for the direct indication mode will be more than that of the two-level resource indication mode. few. Conversely, the two-level resource indication method may require fewer bits than the direct indication method. For example, the entire system bandwidth is 80MHz. If 60kHz is used as the frequency domain reference resource block sub-carrier frequency interval, there are 128 frequency domain reference resource blocks in the frequency domain. If 4 resource subbands are allocated, the two-level resource indication method The first resource required N=128>2*4*log ₂ (128) (the first resource required by the direct instruction method). But if the width of a frequency domain reference physical resource block in the frequency domain is 16*180kHz=2880kHz, then the entire 80MHz bandwidth will contain 32 frequency domain reference physical resource blocks. At this time, the first resource N is required by the two-level resource indication method. =32<2*4*log ₂ (32) (the first resource required by the direct instruction method). Generally speaking, when the number of reference physical resource blocks is small, the two-level resource indication method can use fewer bits to allocate multiple resource subbands with different carrier frequency intervals to a terminal at the same time. When the number of physical resource blocks is large, a smaller number of bits can be used when multiple resource blocks with different carrier frequency intervals are allocated to a terminal.

可選地，該資源配置信息中還可以包括一個用於指示為終端設備當前資源分配中有幾個資源子帶，例如，可以使用3個比特位，最多指示8個資源子帶。應理解，本發明實施例中的資源子帶可以是由連續的物理資源塊組成，也可以是由具有相同子載波間隔的多個不連續的物理資源塊組成，本發明實施例對此不夠成限定。 Optionally, the resource configuration information may also include one used to indicate how many resource subbands are currently allocated to the terminal device. For example, 3 bits may be used to indicate a maximum of 8 resource subbands. It should be understood that the resource subband in the embodiment of the present invention may be composed of continuous physical resource blocks, or may be composed of multiple discontinuous physical resource blocks with the same subcarrier spacing, which is not sufficient in the embodiment of the present invention. limited.

應理解，本發明實施例的技術方案同樣適用在分配虛擬資源塊(Virtual Resource Block，VRB)上。惟一不同是在按以上方法分配完虛擬資源塊以後，再按一些預置的映射把虛擬資源塊映射到物理資源塊上去，通過這種映射，也可以實現離散的資源分配。It should be understood that the technical solutions of the embodiments of the present invention are also applicable to allocating virtual resource blocks (Virtual Resource Block, VRB). The only difference is that after the virtual resource block is allocated according to the above method, the virtual resource block is mapped to the physical resource block according to some preset mappings. Through this mapping, discrete resource allocation can also be realized.

圖6示出了根據本發明實施例的傳輸數據的方法200的示意性框圖。如圖6所示，該方法200可以由終端設備執行，例如可以由用戶設備執行，該方法200包括：FIG. 6 shows a schematic block diagram of a method 200 for transmitting data according to an embodiment of the present invention. As shown in FIG. 6, the method 200 may be executed by a terminal device, for example, may be executed by a user equipment, and the method 200 includes:

S210，接收網絡設備發送的資源分配信息，所述資源配置信息用於指示在調度單元內用於傳輸數據的多個資源子帶，所述多個資源子帶中的每個資源子帶在頻域上由連續的物理資源塊構成，所述多個資源子帶中的至少兩個資源子帶具有不同的子載波間隔；S210. Receive resource allocation information sent by a network device, where the resource configuration information is used to indicate multiple resource subbands used for data transmission in a scheduling unit, and each resource subband of the multiple resource subbands is in frequency. The domain is composed of continuous physical resource blocks, and at least two resource subbands in the multiple resource subbands have different subcarrier intervals;

S220，根據所述資源分配信息，與所述網絡設備進行所述數據的傳輸。S220: Perform the data transmission with the network device according to the resource allocation information.

因此，本發明實施例提供的傳輸數據的方法，通過在一個調度單元內為終端設備指示用於傳輸數據的不同子載波間隔的資源子帶，能夠更好地支持具有多種屬性的本地頻域連續資源分配。Therefore, the method for transmitting data provided by the embodiment of the present invention can better support local frequency domain continuity with multiple attributes by indicating resource subbands with different subcarrier intervals for transmitting data for the terminal device in a scheduling unit. Resource allocation.

可選地，在本發明實施例中，該資源配置信息包括第一位置指示信息，該第一位置指示信息用於指示該多個資源子帶中的第一資源子帶在頻域上的位置，該根據該資源分配信息，與該網絡設備進行該數據的傳輸，包括：根據該第一位置指示信息，在該第一資源子帶上與該網絡設備進行該數據中部分數據的傳輸。Optionally, in the embodiment of the present invention, the resource configuration information includes first position indication information, and the first position indication information is used to indicate the position in the frequency domain of the first resource subband among the plurality of resource subbands The transmitting the data with the network device according to the resource allocation information includes: transmitting part of the data in the data with the network device on the first resource subband according to the first location indication information.

可選地，在本發明實施例中，該第一位置信息包括第一指示信息和第二指示信息，該第一指示信息用於指示該調度單元內在頻域上包括該第一資源子帶的頻域參考物理資源塊，該頻域參考物理資源塊的子載波間隔為系統預配置的最大子載波間隔的倍數；該第二指示信息用於指示該第一資源子帶包括的物理資源塊在該第一指示信息指示的起始頻域參考物理資源塊中的位置以及該第一資源子帶包括的物理資源塊在該第一指示信息指示的結束頻域參考物理資源塊中的位置。Optionally, in this embodiment of the present invention, the first location information includes first indication information and second indication information, and the first indication information is used to indicate that the scheduling unit includes the frequency domain of the first resource subband in the frequency domain. The frequency domain reference physical resource block, the subcarrier interval of the frequency domain reference physical resource block is a multiple of the maximum subcarrier interval pre-configured by the system; the second indication information is used to indicate that the physical resource block included in the first resource subband is The position in the starting frequency domain reference physical resource block indicated by the first indication information and the position of the physical resource block included in the first resource subband in the ending frequency domain reference physical resource block indicated by the first indication information.

可選地，在本發明實施例中，該第一指示信息為第一比特表，該第一比特表中的每個比特位對應于該調度單元中的每個頻域參考物理資源塊，該第一比特表中多個連續的第一比特位取第一值表示對應的頻域參考物理資源塊包括該第一資源子帶的物理資源塊。Optionally, in the embodiment of the present invention, the first indication information is a first bit table, and each bit in the first bit table corresponds to each frequency domain reference physical resource block in the scheduling unit. Taking a first value for multiple consecutive first bits in the first bit table indicates that the corresponding frequency domain reference physical resource block includes the physical resource block of the first resource subband.

可選地，在本發明實施例中，該第一指示信息具體用於指示該起始頻域參考物理資源塊在頻域上的位置和該結束頻域參考物理資源塊在頻域上的位置，或該第一指示信息具體用於指示該起始頻域參考物理資源塊在頻域上的位置和包括該第一資源子帶的頻域參考物理資源塊的數目。Optionally, in the embodiment of the present invention, the first indication information is specifically used to indicate the position of the starting frequency domain reference physical resource block in the frequency domain and the position of the ending frequency domain reference physical resource block in the frequency domain , Or the first indication information is specifically used to indicate the position of the starting frequency domain reference physical resource block in the frequency domain and the number of frequency domain reference physical resource blocks including the first resource subband.

可選地，在本發明實施例中，該第二指示信息為第二比特表和第三比特表，該第二比特表和該第三比特表中的一個比特位均對應于該第一資源子帶包括的一個物理資源塊，該第二比特表中比特位取第二值表示對應的物理資源塊屬該起始頻域參考物理資源塊，該第三比特表中比特位取第三值表示對應的物理資源塊屬該結束頻域參考物理資源塊。Optionally, in the embodiment of the present invention, the second indication information is a second bit table and a third bit table, and one bit in the second bit table and the third bit table both corresponds to the first resource A physical resource block included in the subband, a bit in the second bit table takes a second value to indicate that the corresponding physical resource block belongs to the starting frequency domain reference physical resource block, and the bit in the third bit table takes a third value Indicates that the corresponding physical resource block belongs to the end frequency domain reference physical resource block.

可選地，在本發明實施例中，若該多個資源子帶中第二資源子帶與該第一資源子帶在頻域上位於不重疊的頻域參考物理資源塊，則該第一比特表中多個連續的第二比特位取第四值表示對應的頻域參考物理資源塊在頻域上包括該第二資源子帶包括的物理資源塊。Optionally, in the embodiment of the present invention, if the second resource subband and the first resource subband in the plurality of resource subbands are located in non-overlapping frequency domain reference physical resource blocks in the frequency domain, the first resource subband The fourth value of the multiple consecutive second bits in the bit table indicates that the corresponding frequency domain reference physical resource block includes the physical resource block included in the second resource subband in the frequency domain.

可選地，在本發明實施例中，若該多個資源子帶中第二資源子帶與該第一資源子帶在頻域上位於重疊的頻域參考物理資源塊，則該資源配置信息還包括第四比特表，該第四比特表中的每個比特位對應于該調度單元中的每個頻域參考物理資源塊，該第四比特表中多個連續的第三比特位取第五值表示對應的頻域參考物理資源塊在頻域上包括該第二資源子帶包括的物理資源塊。Optionally, in the embodiment of the present invention, if the second resource subband and the first resource subband in the plurality of resource subbands are located in an overlapping frequency domain reference physical resource block in the frequency domain, the resource configuration information It also includes a fourth bit table, each bit in the fourth bit table corresponds to each frequency domain reference physical resource block in the scheduling unit, and multiple consecutive third bits in the fourth bit table take the first Five values indicate that the corresponding frequency domain reference physical resource block includes the physical resource block included in the second resource subband in the frequency domain.

可選地，在本發明實施例中，該第一位置指示信息具體用於指示該第一資源子帶在頻域上的起始物理資源塊和該第一資源子帶包括的物理資源塊的數目，或該第一位置指示信息具體用於指示該第一資源子帶在頻域上的起始物理資源塊和該第一資源子帶在頻域上的結束物理資源塊。Optionally, in the embodiment of the present invention, the first position indication information is specifically used to indicate the starting physical resource block of the first resource subband in the frequency domain and the value of the physical resource block included in the first resource subband. The number or the first position indication information is specifically used to indicate the start physical resource block of the first resource subband in the frequency domain and the end physical resource block of the first resource subband in the frequency domain.

可選地，在本發明實施例中，該第一位置指示信息具體用於指示該第一資源子帶在頻域上的起始物理資源塊，包括：指示起始頻域參考物理資源塊和該起始物理資源塊在該起始頻域參考物理資源塊中的位置，該起始頻域參考物理資源塊為在頻域上包括該起始物理資源塊的頻域參考物理資源塊；該第一位置指示信息具體用於指示該第一資源子帶在頻域上的結束物理資源塊，包括：指示結束頻域參考物理資源塊和該結束物理資源塊在該結束頻域參考物理資源塊中的位置，該結束頻域參考物理資源塊為在頻域上包括該結束物理資源塊的頻域參考物理資源塊；頻域參考物理資源塊的子載波間隔為系統預配置的最大子載波間隔的倍數。Optionally, in the embodiment of the present invention, the first position indication information is specifically used to indicate the starting physical resource block of the first resource subband in the frequency domain, including: indicating the starting frequency domain reference physical resource block and The position of the starting physical resource block in the starting frequency domain reference physical resource block, and the starting frequency domain reference physical resource block is a frequency domain reference physical resource block including the starting physical resource block in the frequency domain; The first position indication information is specifically used to indicate the end physical resource block of the first resource subband in the frequency domain, including: indicating an end frequency domain reference physical resource block and the end physical resource block reference physical resource block in the end frequency domain The end frequency domain reference physical resource block is the frequency domain reference physical resource block including the end physical resource block in the frequency domain; the subcarrier interval of the frequency domain reference physical resource block is the maximum subcarrier interval pre-configured by the system Multiples of.

應理解，終端設備側描述的終端設備與網絡設備的交互及相關特性、功能等與網絡設備側的相關特性、功能相應，為了簡潔，在此不再贅述。It should be understood that the interaction between the terminal device and the network device and the related characteristics and functions described on the terminal device side correspond to the related characteristics and functions on the network device side. For the sake of brevity, details are not repeated here.

還應理解，在本申請的各種實施例中，上述各過程的序號的大小並不意味著執行順序的先後，各過程的執行順序應以其功能和內在邏輯確定，而不應對本發明實施例的實施過程構成任何限定。It should also be understood that in the various embodiments of the present application, the size of the sequence numbers of the above-mentioned processes does not mean the order of execution. The execution order of the processes should be determined by their functions and internal logic, and should not be used in the embodiments of the present invention. The implementation process constitutes any limitation.

上文中詳細描述了根據本發明實施例的傳輸數據的方法，下面將結合圖7至圖10，描述根據本發明實施例的傳輸數據的裝置，方法實施例所描述的技術特徵適用於以下裝置實施例。The data transmission method according to the embodiment of the present invention is described in detail above. The data transmission device according to the embodiment of the present invention will be described below in conjunction with FIG. 7 to FIG. 10. The technical features described in the method embodiment are applicable to the following device implementation example.

圖7示出了根據本發明實施例的傳輸數據的網絡設備300的示意性框圖。如圖7所示，該網絡設備300包括：Fig. 7 shows a schematic block diagram of a data transmission network device 300 according to an embodiment of the present invention. As shown in FIG. 7, the network device 300 includes:

發送單元310，用於向終端設備發送資源配置信息，所述資源配置信息用於指示在調度單元內用於傳輸數據的多個資源子帶，所述多個資源子帶中的每個資源子帶在頻域上由連續的物理資源塊構成，所述多個資源子帶中的至少兩個資源子帶具有不同的子載波間隔；The sending unit 310 is configured to send resource configuration information to the terminal device, where the resource configuration information is used to indicate multiple resource subbands used for data transmission in the scheduling unit, and each resource subband in the multiple resource subbands A band is composed of continuous physical resource blocks in the frequency domain, and at least two resource subbands in the plurality of resource subbands have different subcarrier intervals;

傳輸單元320，用於在所述多個資源子帶上，與所述終端設備進行所述數據的傳輸。The transmission unit 320 is configured to transmit the data with the terminal device on the multiple resource subbands.

因此，本發明實施例提供的傳輸數據的網絡設備，通過在一個調度單元內劃分具有不同子載波間隔的資源子帶，用來傳輸數據，能夠更好地支持具有多種屬性的本地頻域連續資源分配。Therefore, the network device for transmitting data provided by the embodiment of the present invention can better support local frequency domain continuous resources with multiple attributes by dividing resource subbands with different subcarrier intervals in a scheduling unit to transmit data. distribute.

可選地，在本發明實施例中，該第一位置指示信息包括第一指示信息和第二指示信息，該第一指示信息用於指示該調度單元內在頻域上包括該第一資源子帶的頻域參考物理資源塊，該頻域參考物理資源塊的子載波間隔為系統預配置的最大子載波間隔的倍數；該第二指示信息用於指示該第一資源子帶包括的物理資源塊在該第一指示信息指示的起始頻域參考物理資源塊中的位置以及該第一資源子帶包括的物理資源塊在該第一指示信息指示的結束頻域參考物理資源塊中的位置。Optionally, in the embodiment of the present invention, the first position indication information includes first indication information and second indication information, and the first indication information is used to indicate that the scheduling unit includes the first resource subband in the frequency domain. The frequency domain reference physical resource block, the subcarrier interval of the frequency domain reference physical resource block is a multiple of the maximum subcarrier interval preconfigured by the system; the second indication information is used to indicate the physical resource block included in the first resource subband The position in the start frequency domain reference physical resource block indicated by the first indication information and the position of the physical resource block included in the first resource subband in the end frequency domain reference physical resource block indicated by the first indication information.

可選地，在本發明實施例中，該第一指示信息具體用於指示該起始頻域參考物理資源塊在頻域上的位置和該結束頻域參考物理資源塊在頻域上的位置，或該第二指示信息具體用於指示該起始頻域參考物理資源塊在頻域上的位置和包括該第一資源子帶的頻域參考物理資源塊的數目。Optionally, in the embodiment of the present invention, the first indication information is specifically used to indicate the position of the starting frequency domain reference physical resource block in the frequency domain and the position of the ending frequency domain reference physical resource block in the frequency domain , Or the second indication information is specifically used to indicate the position of the starting frequency domain reference physical resource block in the frequency domain and the number of frequency domain reference physical resource blocks including the first resource subband.

應理解，根據本發明實施例的傳輸數據的網絡設備300可對應于本發明方法實施例中的網絡設備，並且網絡設備300中的各個單元的上述和其它操作和/或功能分別為了實現圖2至圖5中的方法的相應流程，為了簡潔，在此不再贅述。It should be understood that the network device 300 for transmitting data according to the embodiment of the present invention may correspond to the network device in the method embodiment of the present invention, and the above-mentioned and other operations and/or functions of each unit in the network device 300 are respectively for implementing FIG. 2 The corresponding process to the method in FIG. 5 is not repeated here for the sake of brevity.

圖8示出了根據本發明實施例的傳輸數據的終端設備400。如圖8所示，該終端設備400包括：FIG. 8 shows a terminal device 400 for transmitting data according to an embodiment of the present invention. As shown in FIG. 8, the terminal device 400 includes:

接收單元410，用於接收網絡設備發送的資源分配信息，該資源配置信息用於指示在調度單元內用於傳輸數據的多個資源子帶，該多個資源子帶中的每個資源子帶在頻域上由連續的物理資源塊構成，該多個資源子帶中的至少兩個資源子帶具有不同的子載波間隔；The receiving unit 410 is configured to receive resource allocation information sent by a network device, where the resource configuration information is used to indicate multiple resource subbands used for data transmission in the scheduling unit, and each resource subband of the multiple resource subbands It is composed of continuous physical resource blocks in the frequency domain, and at least two resource subbands in the multiple resource subbands have different subcarrier intervals;

傳輸單元420，用於根據該資源分配信息，與該網絡設備進行該數據的傳輸。The transmission unit 420 is configured to transmit the data with the network device according to the resource allocation information.

因此，本發明實施例提供的傳輸數據的終端設備，通過在一個調度單元內為終端設備指示用於傳輸數據的不同子載波間隔的資源子帶，能夠更好地支持具有多種屬性的本地頻域連續資源分配。Therefore, the terminal device for transmitting data provided by the embodiment of the present invention can better support the local frequency domain with multiple attributes by indicating the resource subbands of different subcarrier intervals for transmitting data for the terminal device in a scheduling unit. Continuous resource allocation.

可選地，在本發明實施例中，該資源配置信息包括第一位置指示信息，該第一位置指示信息用於指示該多個資源子帶中的第一資源子帶在頻域上的位置，該傳輸單元420具體用於：根據該第一位置指示信息，在該第一資源子帶上與該網絡設備進行該數據中部分數據的傳輸。Optionally, in the embodiment of the present invention, the resource configuration information includes first position indication information, and the first position indication information is used to indicate the position in the frequency domain of the first resource subband among the plurality of resource subbands The transmission unit 420 is specifically configured to: according to the first location indication information, perform transmission of part of the data with the network device on the first resource subband.

應理解，根據本發明實施例的傳輸數據的終端設備400可對應于本發明方法實施例中的終端設備，並且終端設備400中的各個單元的上述和其它操作和/或功能分別為了實現圖6中的方法的相應流程，為了簡潔，在此不再贅述。It should be understood that the terminal device 400 for transmitting data according to the embodiment of the present invention may correspond to the terminal device in the method embodiment of the present invention, and the above-mentioned and other operations and/or functions of each unit in the terminal device 400 are respectively for implementing FIG. 6 For the sake of brevity, the corresponding flow of the method in the method will not be repeated here.

如圖9所示，本發明實施例還提供了一種傳輸數據的網絡設備500，該網絡設備500包括：處理器510、存儲器520和收發器540，其中，該處理器510、該存儲器520和該收發器540通過內部連接通路互相通信，傳遞控制和/或數據信號，該存儲器520用於存儲指令，該處理器510用於執行該存儲器520存儲的指令，以控制該收發器540發送信號；其中，該處理器510用於：向網絡設備發送資源配置信息，所述資源配置信息用於指示在調度單元內用於傳輸數據的多個資源子帶，所述多個資源子帶中的每個資源子帶在頻域上由連續的物理資源塊構成，所述多個資源子帶中的至少兩個資源子帶具有不同的子載波間隔；在所述多個資源子帶上，與所述網絡設備進行所述數據的傳輸。As shown in FIG. 9, an embodiment of the present invention also provides a network device 500 for transmitting data. The network device 500 includes a processor 510, a memory 520, and a transceiver 540. The processor 510, the memory 520, and the The transceivers 540 communicate with each other through internal connection paths to transfer control and/or data signals. The memory 520 is used to store instructions, and the processor 510 is used to execute instructions stored in the memory 520 to control the transceiver 540 to send signals; wherein , The processor 510 is configured to send resource configuration information to the network device, where the resource configuration information is used to indicate multiple resource subbands used for data transmission in the scheduling unit, each of the multiple resource subbands The resource subbands are composed of continuous physical resource blocks in the frequency domain, and at least two resource subbands in the multiple resource subbands have different subcarrier intervals; on the multiple resource subbands, the The network device transmits the data.

應理解，在本發明實施例中，該處理器510可以是中央處理單元（Central Processing Unit，CPU），該處理器510還可以是其他通用處理器、數字信號處理器（DSP）、專用集成電路（ASIC）、現成可編程門陣列（FPGA）或者其他可編程邏輯器件、分立門或者晶體管邏輯器件、分立硬體組件等。通用處理器可以是微處理器或者該處理器也可以是任何常規的處理器等。It should be understood that, in this embodiment of the present invention, the processor 510 may be a central processing unit (Central Processing Unit, CPU), and the processor 510 may also be other general-purpose processors, digital signal processors (DSP), or application specific integrated circuits. (ASIC), off-the-shelf programmable gate array (FPGA) or other programmable logic devices, discrete gates or transistor logic devices, discrete hardware components, etc. The general-purpose processor may be a microprocessor or the processor may also be any conventional processor or the like.

該存儲器520可以包括只讀存儲器和隨機存取存儲器，並向處理器510提供指令和數據。存儲器520的一部分還可以包括非易失性隨機存取存儲器。例如，存儲器520還可以存儲設備類型的信息。The memory 520 may include a read-only memory and a random access memory, and provides instructions and data to the processor 510. A part of the memory 520 may also include a non-volatile random access memory. For example, the memory 520 may also store device type information.

在實現過程中，上述方法的各步驟可以通過處理器510中的硬體的集成邏輯電路或者軟體形式的指令完成。結合本發明實施例所公開的方法的步驟可以直接體現為硬體處理器執行完成，或者用處理器中的硬體及軟體模塊組合執行完成。軟體模塊可以位於隨機存儲器，閃存、只讀存儲器，可編程只讀存儲器或者電可擦寫可編程存儲器、寄存器等本領域成熟的存儲介質中。該存儲介質位於存儲器520，處理器510讀取存儲器520中的信息，結合其硬體完成上述方法的步驟。為避免重複，這裡不再詳細描述。In the implementation process, the steps of the above method can be completed by hardware integrated logic circuits in the processor 510 or instructions in the form of software. The steps of the method disclosed in combination with the embodiments of the present invention may be directly embodied as being executed by a hardware processor, or executed by a combination of hardware and software modules in the processor. The software module can be located in a mature storage medium in the field, such as random access memory, flash memory, read-only memory, programmable read-only memory, or electrically erasable programmable memory, registers. The storage medium is located in the memory 520, and the processor 510 reads the information in the memory 520, and completes the steps of the foregoing method in combination with its hardware. To avoid repetition, it will not be described in detail here.

應理解，根據本發明實施例的傳輸數據的網絡設備500可對應于本發明實施例中的網絡設備以及網絡設備300，並可以對應於執行根據本發明實施例的方法中的網絡設備，並且網絡設備500中的各個單元的上述和其它操作和/或功能分別為了實現圖2至圖5各方法的相應流程，為了簡潔，在此不再贅述。It should be understood that the network device 500 for transmitting data according to the embodiment of the present invention may correspond to the network device and the network device 300 in the embodiment of the present invention, and may correspond to the network device that executes the method according to the embodiment of the present invention, and the network The foregoing and other operations and/or functions of the various units in the device 500 are used to implement the corresponding processes of the methods in FIGS. 2 to 5, and are not repeated here for brevity.

如圖10所示，本發明實施例還提供了一種傳輸數據的終端設備600，該終端設備600包括：處理器610、存儲器620和收發器640，其中，該處理器610、該存儲器620和該收發器640通過內部連接通路互相通信，傳遞控制和/或數據信號，該存儲器620用於存儲指令，該處理器650用於執行該存儲器620存儲的指令，以控制該收發器640發送信號；其中，該處理器610用於：接收網絡設備發送的資源分配信息，所述資源配置信息用於指示在調度單元內用於傳輸數據的多個資源子帶，所述多個資源子帶中的每個資源子帶在頻域上由連續的物理資源塊構成，所述多個資源子帶中的至少兩個資源子帶具有不同的子載波間隔；根據所述資源分配信息，與所述網絡設備進行所述數據的傳輸。As shown in FIG. 10, an embodiment of the present invention also provides a terminal device 600 for transmitting data. The terminal device 600 includes a processor 610, a memory 620, and a transceiver 640. The processor 610, the memory 620, and the The transceivers 640 communicate with each other through internal connection paths to transfer control and/or data signals. The memory 620 is used to store instructions, and the processor 650 is used to execute instructions stored in the memory 620 to control the transceiver 640 to send signals; wherein The processor 610 is configured to receive resource allocation information sent by a network device, where the resource configuration information is used to indicate multiple resource subbands used for data transmission in the scheduling unit, and each of the multiple resource subbands Each resource subband is composed of continuous physical resource blocks in the frequency domain, and at least two resource subbands in the plurality of resource subbands have different subcarrier intervals; according to the resource allocation information, contact with the network device Perform the transmission of the data.

應理解，在本發明實施例中，該處理器610可以是中央處理單元（Central Processing Unit，CPU），該處理器610還可以是其他通用處理器、數字信號處理器（DSP）、專用集成電路（ASIC）、現成可編程門陣列（FPGA）或者其他可編程邏輯器件、分立門或者晶體管邏輯器件、分立硬體組件等。通用處理器可以是微處理器或者該處理器也可以是任何常規的處理器等。It should be understood that in this embodiment of the present invention, the processor 610 may be a central processing unit (Central Processing Unit, CPU), and the processor 610 may also be other general-purpose processors, digital signal processors (DSP), or application specific integrated circuits. (ASIC), off-the-shelf programmable gate array (FPGA) or other programmable logic devices, discrete gates or transistor logic devices, discrete hardware components, etc. The general-purpose processor may be a microprocessor or the processor may also be any conventional processor or the like.

該存儲器620可以包括只讀存儲器和隨機存取存儲器，並向處理器610提供指令和數據。存儲器620的一部分還可以包括非易失性隨機存取存儲器。例如，存儲器620還可以存儲設備類型的信息。The memory 620 may include a read-only memory and a random access memory, and provides instructions and data to the processor 610. A part of the memory 620 may also include a non-volatile random access memory. For example, the memory 620 may also store device type information.

在實現過程中，上述方法的各步驟可以通過處理器610中的硬體的集成邏輯電路或者軟體形式的指令完成。結合本發明實施例所公開的方法的步驟可以直接體現為硬體處理器執行完成，或者用處理器中的硬體及軟體模塊組合執行完成。軟體模塊可以位於隨機存儲器，閃存、只讀存儲器，可編程只讀存儲器或者電可擦寫可編程存儲器、寄存器等本領域成熟的存儲介質中。該存儲介質位於存儲器620，處理器610讀取存儲器620中的信息，結合其硬體完成上述方法的步驟。為避免重複，這裡不再詳細描述。In the implementation process, the steps of the foregoing method can be completed by hardware integrated logic circuits in the processor 610 or instructions in the form of software. The steps of the method disclosed in combination with the embodiments of the present invention may be directly embodied as being executed by a hardware processor, or executed by a combination of hardware and software modules in the processor. The software module can be located in a mature storage medium in the field, such as random access memory, flash memory, read-only memory, programmable read-only memory, or electrically erasable programmable memory, registers. The storage medium is located in the memory 620, and the processor 610 reads the information in the memory 620, and completes the steps of the foregoing method in combination with its hardware. To avoid repetition, it will not be described in detail here.

可選地，在本發明實施例中，所述資源配置信息包括第一位置指示信息，所述第一位置指示信息用於指示所述多個資源子帶中的第一資源子帶在頻域上的位置，所述處理器610具體用於：根據該第一位置指示信息，在該第一資源子帶上與該網絡設備進行該數據中部分數據的傳輸。Optionally, in the embodiment of the present invention, the resource configuration information includes first position indication information, and the first position indication information is used to indicate that the first resource subband of the plurality of resource subbands is in the frequency domain. The processor 610 is specifically configured to: according to the first position indication information, perform transmission of part of the data with the network device on the first resource subband.

應理解，根據本發明實施例的傳輸數據的終端設備600可對應于本發明實施例中的終端設備以及終端設備400，並可以對應於執行根據本發明實施例的方法中的終端設備，並且終端設備600中的各個單元的上述和其它操作和/或功能分別為了實現圖6中的方法的相應流程，為了簡潔，在此不再贅述。It should be understood that the terminal device 600 for transmitting data according to the embodiment of the present invention may correspond to the terminal device and the terminal device 400 in the embodiment of the present invention, and may correspond to the terminal device that executes the method according to the embodiment of the present invention, and the terminal The foregoing and other operations and/or functions of each unit in the device 600 are to implement the corresponding process of the method in FIG. 6, and are not repeated here for brevity.

應理解，本發明實施例提供的網絡設備中的各個單元的操作和/或功能分別對應與方法側中的網絡設備，且與終端設備的交互及相關特性、功能等與終端設備側的相關特性、功能相應，為了簡潔，在此不再贅述。It should be understood that the operation and/or function of each unit in the network device provided by the embodiment of the present invention corresponds to the network device on the method side, and the interaction with the terminal device and related features, functions, etc. are related to the related features on the terminal device side. , The function is corresponding, for the sake of brevity, I will not repeat it here.

應理解，在本發明實施例中，“與A相應的B”表示B與A相關聯，根據A可以確定B。但還應理解，根據A確定B並不意味著僅僅根據A確定B，還可以根據A和/或其它信息確定B。It should be understood that in the embodiment of the present invention, "B corresponding to A" means that B is associated with A, and B can be determined according to A. However, it should also be understood that determining B based on A does not mean that B is determined only based on A, and B can also be determined based on A and/or other information.

所屬技術領域具有通知常識者可以意識到，結合本文中所公開的實施例描述的各示例的單元及算法步驟，能夠以電子硬體、計算機軟體或者二者的結合來實現，為了清楚地說明硬體和軟體的可互換性，在上述說明中已經按照功能一般性地描述了各示例的組成及步驟。這些功能究竟以硬體還是軟體方式來執行，取決於技術方案的特定應用和設計約束條件。專業技術人員可以對每個特定的應用來使用不同方法來實現所描述的功能，但是這種實現不應認為超出本發明實施例的範圍。Those with common knowledge in the technical field can realize that the units and algorithm steps of the examples described in the embodiments disclosed in this article can be implemented by electronic hardware, computer software, or a combination of the two, in order to clearly illustrate the hardware For the interchangeability of body and software, the composition and steps of each example have been described generally in terms of function in the above description. Whether these functions are implemented in hardware or software depends on the specific application and design constraints of the technical solution. Professionals and technicians can use different methods for each specific application to implement the described functions, but such implementation should not be considered as going beyond the scope of the embodiments of the present invention.

所屬技術領域具有通知常識者可以清楚地瞭解到，為了描述的方便和簡潔，上述描述的系統、裝置和單元的具體工作過程，可以參考前述方法實施例中的對應過程，在此不再贅述。Those with common knowledge in the technical field can clearly understand that for the convenience and conciseness of description, the specific working processes of the systems, devices and units described above can refer to the corresponding processes in the foregoing method embodiments, which will not be repeated here.

在本申請所提供的幾個實施例中，應該理解到，所揭露的系統、裝置和方法，可以通過其它的方式實現。例如，以上所描述的裝置實施例僅僅是示意性的，例如，該單元的劃分，僅僅為一種邏輯功能劃分，實際實現時可以有另外的劃分方式，例如多個單元或組件可以結合或者可以集成到另一個系統。另外，在本申請各個實施例中的各功能單元可以集成在一個處理單元中，也可以是各個單元單獨物理存在，也可以是兩個或兩個以上單元集成在一個單元中。上述集成的單元既可以採用硬體的形式實現，也可以採用軟體功能單元的形式實現。In the several embodiments provided in this application, it should be understood that the disclosed system, device, and method can be implemented in other ways. For example, the device embodiments described above are only illustrative. For example, the division of the unit is only a logical function division, and there may be other divisions in actual implementation, for example, multiple units or components can be combined or integrated. To another system. In addition, the functional units in the various embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units may be integrated into one unit. The above-mentioned integrated unit can be realized either in the form of hardware or in the form of software functional unit.

該集成的單元如果以軟體功能單元的形式實現並作為獨立的產品銷售或使用時，可以存儲在一個計算機可讀取存儲介質中。基於這樣的理解，本申請的技術方案本質上或者說對現有技術做出貢獻的部分，或者該技術方案的全部或部分可以以軟體產品的形式體現出來，該計算機軟體產品存儲在一個存儲介質中，包括若干指令用以使得一台計算機設備（可以是個人計算機，服務器，或者網絡設備等）執行本發明各個實施例該方法的全部或部分步驟。而前述的存儲介質包括：USB硬碟、移動硬碟、唯讀存儲器（Read-Only Memory，ROM）、隨機存取存儲器（Random Access Memory，RAM）、磁碟或者光碟等各種可以存儲程式代碼的介質。If the integrated unit is implemented in the form of a software functional unit and sold or used as an independent product, it can be stored in a computer readable storage medium. Based on this understanding, the technical solution of this application is essentially or the part that contributes to the existing technology, or all or part of the technical solution can be embodied in the form of a software product, and the computer software product is stored in a storage medium , Including several instructions to make a computer device (which can be a personal computer, a server, or a network device, etc.) execute all or part of the steps of the method in each embodiment of the present invention. The aforementioned storage media include: USB hard disks, removable hard disks, read-only memory (Read-Only Memory, ROM), random access memory (Random Access Memory, RAM), magnetic disks or optical disks, etc., which can store program codes medium.

以上所述，僅為本申請的具體實施方式，但本申請的保護範圍並不局限於此，任何所屬技術領域具有通知常識者在本申請揭露的技術範圍內，可輕易想到各種等效的修改或替換。The above are only specific implementations of this application, but the scope of protection of this application is not limited to this. Anyone with common knowledge in the technical field can easily think of various equivalent modifications within the technical scope disclosed in this application. Or replace.

10、400、600‧‧‧終端設備20、500‧‧‧網路設備100、200‧‧‧方法110、120、210、220‧‧‧步驟300‧‧‧網絡設備310‧‧‧發送單元320、420‧‧‧傳輸單元410‧‧‧接收單元510、610‧‧‧處理器520、620‧‧‧存儲器540、640‧‧‧收發器10, 400, 600‧‧‧ terminal equipment 20, 500‧‧‧ network equipment 100, 200‧‧‧ method 110, 120, 210, 220‧‧‧ step 300‧‧‧ network equipment 310‧‧‧ sending unit 320 ,420‧‧‧Transmission unit 410‧‧‧Receiving unit 510,610‧‧‧Processor 520,620‧‧‧Memory 540,640‧‧‧Transceiver

圖1示出了本發明實施例的一種可能的應用場景的示意圖。Fig. 1 shows a schematic diagram of a possible application scenario of an embodiment of the present invention.

圖2示出了本發明實施例的傳輸數據的方法的示意性框圖。Fig. 2 shows a schematic block diagram of a data transmission method according to an embodiment of the present invention.

圖3示出了本發明實施例的資源分配的示意圖。Fig. 3 shows a schematic diagram of resource allocation according to an embodiment of the present invention.

圖4示出了本發明實施例的資源分配的另一示意圖。Fig. 4 shows another schematic diagram of resource allocation according to an embodiment of the present invention.

圖5示出了本發明實施例的資源分配的再一示意圖。Fig. 5 shows another schematic diagram of resource allocation according to an embodiment of the present invention.

圖6示出了本發明實施例的傳輸數據的方法的另一示意性框圖。FIG. 6 shows another schematic block diagram of a data transmission method according to an embodiment of the present invention.

圖7示出了本發明實施例的傳輸數據的網絡設備的示意性框圖。FIG. 7 shows a schematic block diagram of a data transmission network device according to an embodiment of the present invention.

圖8示出了本發明實施例的傳輸數據的終端設備的示意性框圖。FIG. 8 shows a schematic block diagram of a data transmission terminal device according to an embodiment of the present invention.

圖9示出了本發明實施例的傳輸數據的網絡設備的另一示意性框圖。FIG. 9 shows another schematic block diagram of a data transmission network device according to an embodiment of the present invention.

圖10示出了本發明實施例的傳輸數據的終端設備的另一示意性框圖。FIG. 10 shows another schematic block diagram of a data transmission terminal device according to an embodiment of the present invention.

100‧‧‧方法 100‧‧‧Method

110、120‧‧‧步驟 110, 120‧‧‧ steps

Claims

一種傳輸數據的方法，其中，包括：向終端設備發送資源配置信息，所述資源配置信息用於指示在調度單元內用於傳輸數據的多個資源子帶，所述多個資源子帶中的每個資源子帶在頻域上由連續的物理資源塊構成，所述多個資源子帶中的至少兩個資源子帶具有不同的子載波間隔；以及在所述多個資源子帶上，與所述終端設備進行所述數據的傳輸，其中，所述資源配置信息包括第一位置指示信息，所述第一位置指示信息用於指示所述多個資源子帶中的第一資源子帶在頻域上的位置。 A method for transmitting data, including: sending resource configuration information to a terminal device, where the resource configuration information is used to indicate a plurality of resource subbands used for data transmission in a scheduling unit, and among the plurality of resource subbands Each resource subband is composed of continuous physical resource blocks in the frequency domain, and at least two resource subbands of the multiple resource subbands have different subcarrier intervals; and on the multiple resource subbands, Perform the data transmission with the terminal device, wherein the resource configuration information includes first position indication information, and the first position indication information is used to indicate the first resource subband among the plurality of resource subbands Position in the frequency domain.

根據申請專利範圍第1項所述的方法，其中，所述第一位置指示信息包括第一指示信息和第二指示信息，所述第一指示信息用於指示所述調度單元內在頻域上包括所述第一資源子帶的頻域參考物理資源塊，所述頻域參考物理資源塊的子載波間隔為系統預配置的最大子載波間隔的倍數；所述第二指示信息用於指示所述第一資源子帶包括的物理資源塊在所述第一指示信息指示的起始頻域參考物理資源塊中的位置以及所述第一資源子帶包括的物理資源塊在所述第一指示信息指示的結束頻域參考物理資源塊中的位置。 The method according to item 1 of the scope of patent application, wherein the first position indication information includes first indication information and second indication information, and the first indication information is used to indicate that the scheduling unit includes The frequency domain reference physical resource block of the first resource subband, and the subcarrier interval of the frequency domain reference physical resource block is a multiple of the maximum subcarrier interval preconfigured by the system; the second indication information is used to indicate the The position of the physical resource block included in the first resource subband in the starting frequency domain reference physical resource block indicated by the first indication information, and the physical resource block included in the first resource subband is in the first indication information The indicated end frequency domain refers to the position in the physical resource block.

根據申請專利範圍第2項所述的方法，其中，所述第一指示信息為第一比特表，所述第一比特表中的每個比特位對應于所述調度單元中的每個頻域參考物理資源塊，所述第一比特表中多個連續的第一比特位取第一值表示對應的頻域參考物理資源塊包括所述第一資源子帶的物理資源塊。 The method according to item 2 of the scope of patent application, wherein the first indication information is a first bit table, and each bit in the first bit table corresponds to each frequency domain in the scheduling unit With reference to the physical resource block, the first value of multiple consecutive first bits in the first bit table indicates that the corresponding frequency domain reference physical resource block includes the physical resource block of the first resource subband.

根據申請專利範圍第2項所述的方法，其中，所述第一指示信息具體用於指示所述起始頻域參考物理資源塊在頻域上的位置和所述結束頻域參考物理資源塊在頻域上的位置，或所述第一指示信息具體用於指示所述起始頻域參考物理資源塊在頻域上的位置和包括所述第一資源子帶的頻域參考物理資源塊的數目。 The method according to item 2 of the scope of patent application, wherein the first indication information is specifically used to indicate the position of the starting frequency domain reference physical resource block in the frequency domain and the ending frequency domain reference physical resource block The position in the frequency domain, or the first indication information is specifically used to indicate the position of the starting frequency domain reference physical resource block in the frequency domain and the frequency domain reference physical resource block including the first resource subband Number of.

根據申請專利範圍第2項所述的方法，其中，所述第二指示信息為第二比特表和第三比特表，所述第二比特表和所述第三比特表中的一個比特位均對應於所述第一資源子帶包括的一個物理資源塊，所述第二比特表中比特位取第二值表示對應的物理資源塊屬所述起始頻域參考物理資源塊，所述第三比特表中比特位取第三值表示對應的物理資源塊屬所述結束頻域參考物理資源塊。 The method according to item 2 of the scope of patent application, wherein the second indication information is a second bit table and a third bit table, and one bit in the second bit table and the third bit table is both Corresponding to a physical resource block included in the first resource subband, a bit in the second bit table takes a second value to indicate that the corresponding physical resource block belongs to the starting frequency domain reference physical resource block, and the first The third value of the bits in the three-bit table indicates that the corresponding physical resource block belongs to the end frequency domain reference physical resource block.

根據申請專利範圍第3項所述的方法，其中，若所述多個資源子帶中第二資源子帶與所述第一資源子帶在頻域上位於不重疊的頻域參考物理資源塊，則所述第一比特表中多個連續的第二比特位取第四值表示對應的頻域參考物理資源塊在頻域上包括所述第二資源子帶的物理資源塊。 The method according to item 3 of the scope of patent application, wherein, if the second resource subband and the first resource subband in the plurality of resource subbands are located in a non-overlapping frequency domain reference physical resource block in the frequency domain , The fourth value of the multiple consecutive second bits in the first bit table indicates that the corresponding frequency domain reference physical resource block includes the physical resource block of the second resource subband in the frequency domain.

根據申請專利範圍第3項所述的方法，其中，若所述多個資源子帶中第二資源子帶與所述第一資源子帶在頻域上位於重疊的頻域參考物理資源塊，則所述資源配置信息還包括第四比特表，所述第四比特表中的每個比特位對應于所述調度單元中的每個頻域參考物理資源塊，所述第四比特表中多個連續的第三比特位取第五值表示對應的頻域參考物理資源塊在頻域上包括所述第二資源子帶的物理資源塊。 The method according to item 3 of the scope of patent application, wherein, if the second resource subband and the first resource subband in the plurality of resource subbands are located in an overlapping frequency domain reference physical resource block in the frequency domain, Then the resource configuration information further includes a fourth bit table, each bit in the fourth bit table corresponds to each frequency domain reference physical resource block in the scheduling unit, and the fourth bit table contains more The fifth value of the consecutive third bits indicates that the corresponding frequency domain reference physical resource block includes the physical resource block of the second resource subband in the frequency domain.

根據申請專利範圍第1項所述的方法，其中，所述第一位置指示信息具體用於指示所述第一資源子帶在頻域上的起始物理資源塊和所述第一資源子帶包括的物理資源塊的數目，或所述第一位置指示信息具體用於指示所述第一資源子帶在頻域上的起始物理資源塊和所述第一資源子帶在頻域上的結束物理資源塊。 The method according to item 1 of the scope of patent application, wherein the first position indication information is specifically used to indicate the starting physical resource block of the first resource subband in the frequency domain and the first resource subband The number of physical resource blocks included, or the first position indication information is specifically used to indicate the starting physical resource block of the first resource subband in the frequency domain and the first resource subband in the frequency domain End the physical resource block.

根據申請專利範圍第8項所述的方法，其中，所述第一位置指示信息具體用於指示所述第一資源子帶在頻域上的起始物理資源塊，包括：指示起始頻域參考物理資源塊和所述起始物理資源塊在所述起始頻域參考物理資源塊中的位置，所述起始頻域參考物理資源塊為在頻域上包括所述起始物理資源塊的頻域參考物理資源塊；以及所述第一位置指示信息具體用於指示所述第一資源子帶在頻域上的結束物理資源塊，包括：指示結束頻域參考物理資源塊和所述結束物理資源塊在所述結束頻域參考物理資源塊中的位置，所述結束頻域參考物理資源塊為在頻域上包括所述結束物理資源塊的頻域參考物理資源塊；其中，頻域參考物理資源塊的子載波間隔為系統預配置的最大子載波間隔的倍數。 The method according to item 8 of the scope of patent application, wherein the first position indication information is specifically used to indicate the starting physical resource block of the first resource subband in the frequency domain, including: indicating the starting frequency domain The position of the reference physical resource block and the starting physical resource block in the starting frequency domain reference physical resource block, and the starting frequency domain reference physical resource block includes the starting physical resource block in the frequency domain The frequency domain reference physical resource block; and the first position indication information is specifically used to indicate the end physical resource block of the first resource subband in the frequency domain, including: indicating the end frequency domain reference physical resource block and the The position of the ending physical resource block in the ending frequency domain reference physical resource block, and the ending frequency domain reference physical resource block is a frequency domain reference physical resource block including the ending physical resource block in the frequency domain; wherein, frequency The subcarrier spacing of the domain reference physical resource block is a multiple of the maximum subcarrier spacing pre-configured by the system.

一種傳輸數據的方法，其中，包括：接收網絡設備發送的資源分配信息，所述資源配置信息用於指示在調度單元內用於傳輸數據的多個資源子帶，所述多個資源子帶中的每個資源子帶在頻域上由連續的物理資源塊構成，所述多個資源子帶中的至少兩個資源子帶具有不同的子載波間隔；以及根據所述資源分配信息，與所述網絡設備進行所述數據的傳輸，其中，所述資源配置信息包括第一位置指示信息，所述第一位置指示信息用於指示所述多個資源子帶中的第一資源子帶在頻域上的位置，所述根據所述資源分配信息，與所述網絡設備進行所述數據的傳輸，包括：根據所述第一位置指示信息，在所述第一資源子帶上與所述網絡設備進行所述數據中部分數據的傳輸。 A method for transmitting data, including: receiving resource allocation information sent by a network device, where the resource configuration information is used to indicate a plurality of resource subbands used for data transmission in a scheduling unit, and among the plurality of resource subbands Each resource sub-band in the frequency The domain is composed of continuous physical resource blocks, and at least two resource sub-bands of the multiple resource sub-bands have different sub-carrier intervals; and according to the resource allocation information, perform the data exchange with the network device Transmission, wherein the resource configuration information includes first position indication information, and the first position indication information is used to indicate the position in the frequency domain of the first resource subband among the plurality of resource subbands, and the The resource allocation information, transmitting the data with the network device, includes: performing part of the data in the data with the network device on the first resource subband according to the first location indication information Transmission.

根據申請專利範圍第10項所述的方法，其中，所述第一位置指示信息包括第一指示信息和第二指示信息，所述第一指示信息用於指示所述調度單元內在頻域上包括所述第一資源子帶的頻域參考物理資源塊，所述頻域參考物理資源塊的子載波間隔為系統預配置的最大子載波間隔的倍數；所述第二指示信息用於指示所述第一資源子帶包括的物理資源塊在所述第一指示信息指示的起始頻域參考物理資源塊中的位置以及所述第一資源子帶包括的物理資源塊在所述第一指示信息指示的結束頻域參考物理資源塊中的位置。 The method according to item 10 of the scope of patent application, wherein the first position indication information includes first indication information and second indication information, and the first indication information is used to indicate that the scheduling unit includes The frequency domain reference physical resource block of the first resource subband, and the subcarrier interval of the frequency domain reference physical resource block is a multiple of the maximum subcarrier interval preconfigured by the system; the second indication information is used to indicate the The position of the physical resource block included in the first resource subband in the starting frequency domain reference physical resource block indicated by the first indication information, and the physical resource block included in the first resource subband is in the first indication information The indicated end frequency domain refers to the position in the physical resource block.

根據申請專利範圍第11項所述的方法，其中，所述第一指示信息為第一比特表，所述第一比特表中的每個比特位對應于所述調度單元中的每個頻域參考物理資源塊，所述第一比特表中多個連續的第一比特位取第一值表示對應的頻域參考物理資源塊包括所述第一資源子帶的物理資源塊。 The method according to item 11 of the scope of patent application, wherein the first indication information is a first bit table, and each bit in the first bit table corresponds to each frequency domain in the scheduling unit With reference to the physical resource block, the first value of multiple consecutive first bits in the first bit table indicates that the corresponding frequency domain reference physical resource block includes the physical resource block of the first resource subband.

根據申請專利範圍第11項所述的方法，其中，所述第一指示信息具體用於指示所述起始頻域參考物理資源塊在頻域上的位置和所述結束頻域參考物理資源塊在頻域上的位置，或所述第二指示信息具體用於指示所述起始頻域參考物理資源塊在頻域上的位置和包括所述第一資源子帶的頻域參考物理資源塊的數目。 The method according to claim 11, wherein the first indication information is specifically used to indicate the position of the starting frequency domain reference physical resource block in the frequency domain and the ending frequency domain reference physical resource block The position in the frequency domain, or the second indication information is specifically used to indicate the position of the starting frequency domain reference physical resource block in the frequency domain and the frequency domain reference physical resource block including the first resource subband Number of.

根據申請專利範圍第11項所述的方法，其中，所述第二指示信息為第二比特表和第三比特表，所述第二比特表和所述第三比特表中的一個比特位均對應於所述第一資源子帶包括的一個物理資源塊，所述第二比特表中比特位取第二值表示對應的物理資源塊屬所述起始頻域參考物理資源塊，所述第三比特表中比特位取第三值表示對應的物理資源塊屬所述結束頻域參考物理資源塊。 The method according to item 11 of the scope of patent application, wherein the second indication information is a second bit table and a third bit table, and one bit in the second bit table and the third bit table is both Corresponding to a physical resource block included in the first resource subband, a bit in the second bit table takes a second value to indicate that the corresponding physical resource block belongs to the starting frequency domain reference physical resource block, and the first The third value of the bits in the three-bit table indicates that the corresponding physical resource block belongs to the end frequency domain reference physical resource block.

根據申請專利範圍第12項所述的方法，其中，若所述多個資源子帶中第二資源子帶與所述第一資源子帶在頻域上位於不重疊的頻域參考物理資源塊，則所述第一比特表中多個連續的第二比特位取第四值表示對應的頻域參考物理資源塊在頻域上包括所述第二資源子帶的物理資源塊。 The method according to item 12 of the scope of patent application, wherein, if the plurality of resources In the source subband, the second resource subband and the first resource subband are located in non-overlapping frequency-domain reference physical resource blocks in the frequency domain, and then multiple consecutive second bits in the first bit table take the first Four values indicate that the corresponding frequency domain reference physical resource block includes the physical resource block of the second resource subband in the frequency domain.

根據申請專利範圍第12項所述的方法，其中，若所述多個資源子帶中第二資源子帶與所述第一資源子帶在頻域上位於重疊的頻域參考物理資源塊，則所述資源配置信息還包括第四比特表，所述第四比特表中的每個比特位對應于所述調度單元中的每個頻域參考物理資源塊，所述第四比特表中多個連續的第三比特位取第五值表示對應的頻域參考物理資源塊在頻域上包括所述第二資源子帶的物理資源塊。 The method according to claim 12, wherein, if the second resource subband and the first resource subband in the plurality of resource subbands are located in an overlapping frequency domain reference physical resource block in the frequency domain, Then the resource configuration information further includes a fourth bit table, each bit in the fourth bit table corresponds to each frequency domain reference physical resource block in the scheduling unit, and the fourth bit table contains more The fifth value of the consecutive third bits indicates that the corresponding frequency domain reference physical resource block includes the physical resource block of the second resource subband in the frequency domain.

根據申請專利範圍第10項所述的方法，其中，所述第一位置指示信息具體用於指示所述第一資源子帶在頻域上的起始物理資源塊和所述第一資源子帶包括的物理資源塊的數目，或所述第一位置指示信息具體用於指示所述第一資源子帶在頻域上的起始物理資源塊和所述第一資源子帶在頻域上的結束物理資源塊。 The method according to claim 10, wherein the first position indication information is specifically used to indicate the starting physical resource block of the first resource subband in the frequency domain and the first resource subband The number of physical resource blocks included, or the first position indication information is specifically used to indicate the starting physical resource block of the first resource subband in the frequency domain and the first resource subband in the frequency domain End the physical resource block.

根據申請專利範圍第17項所述的方法，其中，所述第一位置指示信息具體用於指示所述第一資源子帶在頻域上的起始物理資源塊，包括：指示起始頻域參考物理資源塊和所述起始物理資源塊在所述起始頻域參考物理資源塊中的位置，所述起始頻域參考物理資源塊為在頻域上包括所述起始物理資源塊的頻域參考物理資源塊；以及所述第一位置指示信息具體用於指示所述第一資源子帶在頻域上的結束物理資源塊，包括：指示結束頻域參考物理資源塊和所述結束物理資源塊在所述結束頻域參考物理資源塊中的位置，所述結束頻域參考物理資源塊為在頻域上包括所述結束物理資源塊的頻域參考物理資源塊；其中，頻域參考物理資源塊的子載波間隔為系統預配置的最大子載波間隔的倍數。 The method according to item 17 of the scope of patent application, wherein the first position indication information is specifically used to indicate the starting physical resource block of the first resource subband in the frequency domain, including: indicating the starting frequency domain The position of the reference physical resource block and the starting physical resource block in the starting frequency domain reference physical resource block, and the starting frequency domain reference physical resource block includes the starting physical resource block in the frequency domain The frequency domain reference physical resource block; and the first position indication information is specifically used to indicate the end physical resource block of the first resource subband in the frequency domain, including: indicating the end frequency domain reference physical resource block and the The position of the ending physical resource block in the ending frequency domain reference physical resource block, and the ending frequency domain reference physical resource block is a frequency domain reference physical resource block including the ending physical resource block in the frequency domain; wherein, frequency The subcarrier spacing of the domain reference physical resource block is a multiple of the maximum subcarrier spacing pre-configured by the system.

一種傳輸數據的網絡設備，其中，所述網絡設備包括：發送單元，用於向終端設備發送資源配置信息，所述資源配置信息用於指示在調度單元內用於傳輸數據的多個資源子帶，所述多個資源子帶中的每個資源子帶在頻域上由連續的物理資源塊構成，所述多個資源子帶中的至少兩個資源子帶具有不同的子載波間隔；以及傳輸單元，用於在所述多個資源子帶上，與所述終端設備進行所述數據的傳輸，其中，所述資源配置信息包括第一位置指示信息，所述第一位置指示信息用於指示所述多個資源子帶中的第一資源子帶在頻域上的位置。 A network device for transmitting data, wherein the network device includes a sending unit for sending resource configuration information to a terminal device, and the resource configuration information is used for indicating a plurality of resource subbands used for data transmission in a scheduling unit , Each resource sub-band in the multiple resource sub-bands is composed of continuous physical resource blocks in the frequency domain, and at least two resource sub-bands in the multiple resource sub-bands The source subbands have different subcarrier intervals; and the transmission unit is configured to transmit the data with the terminal device on the multiple resource subbands, wherein the resource configuration information includes a first position indicator Information, the first position indication information is used to indicate the position of the first resource subband in the multiple resource subbands in the frequency domain.

根據申請專利範圍第19項所述的網絡設備，其中，所述第一位置指示信息包括第一指示信息和第二指示信息，所述第一指示信息用於指示所述調度單元內在頻域上包括所述第一資源子帶的頻域參考物理資源塊，所述頻域參考物理資源塊的子載波間隔為系統預配置的最大子載波間隔的倍數；所述第二指示信息用於指示所述第一資源子帶包括的物理資源塊在所述第一指示信息指示的起始頻域參考物理資源塊中的位置以及所述第一資源子帶包括的物理資源塊在所述第一指示信息指示的結束頻域參考物理資源塊中的位置。 The network device according to item 19 of the scope of patent application, wherein the first position indication information includes first indication information and second indication information, and the first indication information is used to indicate that the scheduling unit is in the frequency domain. The frequency domain reference physical resource block including the first resource subband, and the subcarrier interval of the frequency domain reference physical resource block is a multiple of the maximum subcarrier interval pre-configured by the system; the second indication information is used to indicate all The position of the physical resource block included in the first resource subband in the starting frequency domain reference physical resource block indicated by the first indication information, and the physical resource block included in the first resource subband is in the first indication The end frequency domain indicated by the information refers to the position in the physical resource block.

根據申請專利範圍第20項所述的網絡設備，其中，所述第一指示信息為第一比特表，所述第一比特表中的每個比特位對應于所述調度單元中的每個頻域參考物理資源塊，所述第一比特表中多個連續的第一比特位取第一值表示對應的頻域參考物理資源塊包括所述第一資源子帶的物理資源塊。 The network device according to item 20 of the scope of patent application, wherein the first indication information is a first bit table, and each bit in the first bit table corresponds to each frequency in the scheduling unit The domain reference physical resource block, where the first value of multiple consecutive first bits in the first bit table indicates that the corresponding frequency domain reference physical resource block includes the physical resource block of the first resource subband.

根據申請專利範圍第20項所述的網絡設備，其中，所述第一指示信息具體用於指示所述起始頻域參考物理資源塊在頻域上的位置和所述結束頻域參考物理資源塊在頻域上的位置，或所述第二指示信息具體用於指示所述起始頻域參考物理資源塊在頻域上的位置和包括所述第一資源子帶的頻域參考物理資源塊的數目。 The network device according to claim 20, wherein the first indication information is specifically used to indicate the position of the starting frequency domain reference physical resource block in the frequency domain and the ending frequency domain reference physical resource The position of the block in the frequency domain, or the second indication information is specifically used to indicate the position of the starting frequency domain reference physical resource block in the frequency domain and the frequency domain reference physical resource including the first resource subband The number of blocks.

根據申請專利範圍第20項所述的網絡設備，其中，所述第二指示信息為第二比特表和第三比特表，所述第二比特表和所述第三比特表中的一個比特位均對應於所述第一資源子帶包括的一個物理資源塊，所述第二比特表中比特位取第二值表示對應的物理資源塊屬所述起始頻域參考物理資源塊，所述第三比特表中比特位取第三值表示對應的物理資源塊屬所述結束頻域參考物理資源塊。 The network device according to item 20 of the scope of patent application, wherein the second indication information is a second bit table and a third bit table, and one bit in the second bit table and the third bit table Each corresponds to a physical resource block included in the first resource subband, a bit in the second bit table takes a second value to indicate that the corresponding physical resource block belongs to the start frequency domain reference physical resource block, and The third value of the bit in the third bit table indicates that the corresponding physical resource block belongs to the end frequency domain reference physical resource block.

根據申請專利範圍第21項所述的網絡設備，其中，若所述多個資源子帶中第二資源子帶與所述第一資源子帶在頻域上位於不重疊的頻域參考物理資源塊，則所述第一比特表中多個連續的第二比特位取第四值表示對應的頻域參考物理資源塊在頻域上包括所述第二資源子帶的物理資源塊。 The network device according to item 21 of the scope of patent application, wherein, if the second resource subband and the first resource subband in the plurality of resource subbands are located in the frequency domain in a non-overlapping frequency domain reference physical resource Block, the fourth value of multiple consecutive second bits in the first bit table indicates that the corresponding frequency domain reference physical resource block includes the physical resource block of the second resource subband in the frequency domain.

根據申請專利範圍第21項所述的網絡設備，其中，若所述多個資源子帶中第二資源子帶與所述第一資源子帶在頻域上位於重疊的頻域參考物理資源塊，則所述資源配置信息還包括第四比特表，所述第四比特表中的每個比特位對應于所述調度單元中的每個頻域參考物理資源塊，所述第四比特表中多個連續的第三比特位取第五值表示對應的頻域參考物理資源塊在頻域上包括所述第二資源子帶的物理資源塊。 The network device according to item 21 of the scope of patent application, wherein, if the second resource subband and the first resource subband in the plurality of resource subbands are located in an overlapping frequency domain reference physical resource block in the frequency domain , The resource configuration information further includes a fourth bit table, each bit in the fourth bit table corresponds to each frequency domain reference physical resource block in the scheduling unit, in the fourth bit table The fifth value of the multiple consecutive third bits indicates that the corresponding frequency domain reference physical resource block includes the physical resource block of the second resource subband in the frequency domain.

根據申請專利範圍第19項所述的網絡設備，其中，所述第一位置指示信息具體用於指示所述第一資源子帶在頻域上的起始物理資源塊和所述第一資源子帶包括的物理資源塊的數目，或所述第一位置指示信息具體用於指示所述第一資源子帶在頻域上的起始物理資源塊和所述第一資源子帶在頻域上的結束物理資源塊。 The network device according to item 19 of the scope of patent application, wherein the first position indication information is specifically used to indicate the starting physical resource block of the first resource subband in the frequency domain and the first resource subband The number of physical resource blocks included in the band, or the first position indication information is specifically used to indicate the starting physical resource block of the first resource subband in the frequency domain and the first resource subband in the frequency domain The ending physical resource block.

根據申請專利範圍第26項所述的網絡設備，其中，所述第一位置指示信息具體用於指示所述第一資源子帶在頻域上的起始物理資源塊，包括：指示起始頻域參考物理資源塊和所述起始物理資源塊在所述起始頻域參考物理資源塊中的位置，所述起始頻域參考物理資源塊為在頻域上包括所述起始物理資源塊的頻域參考物理資源塊；以及所述第一位置指示信息具體用於指示所述第一資源子帶在頻域上的結束物理資源塊，包括：指示結束頻域參考物理資源塊和所述結束物理資源塊在所述結束頻域參考物理資源塊中的位置，所述結束頻域參考物理資源塊為在頻域上包括所述結束物理資源塊的頻域參考物理資源塊；其中，頻域參考物理資源塊的子載波間隔為系統預配置的最大子載波間隔的倍數。 The network device according to item 26 of the scope of patent application, wherein the first position indication information is specifically used to indicate the starting physical resource block of the first resource subband in the frequency domain, including: indicating the starting frequency The position of the domain reference physical resource block and the starting physical resource block in the starting frequency domain reference physical resource block, and the starting frequency domain reference physical resource block includes the starting physical resource in the frequency domain The frequency domain reference physical resource block of the block; and the first position indication information is specifically used to indicate the end physical resource block of the first resource subband in the frequency domain, including: indicating the end frequency domain reference physical resource block and all The position of the ending physical resource block in the ending frequency domain reference physical resource block, and the ending frequency domain reference physical resource block is a frequency domain reference physical resource block including the ending physical resource block in the frequency domain; wherein, The subcarrier interval of the frequency domain reference physical resource block is a multiple of the maximum subcarrier interval pre-configured by the system.

一種傳輸數據的終端設備，其中，所述終端設備包括：接收單元，用於接收網絡設備發送的資源分配信息，所述資源配置信息用於指示在調度單元內用於傳輸數據的多個資源子帶，所述多個資源子帶中的每個資源子帶在頻域上由連續的物理資源塊構成，所述多個資源子帶中的至少兩個資源子帶具有不同的子載波間隔；以及傳輸單元，用於根據所述資源分配信息，與所述網絡設備進行所述數據的傳輸，其中，所述資源配置信息包括第一位置指示信息，所述第一位置指示信息用於指示所述多個資源子帶中的第一資源子帶在頻域上的位置，所述傳輸單元具體用於：根據所述第一位置指示信息，在所述第一資源子帶上與所述網絡設備進行所述數據中部分數據的傳輸。 A terminal device for transmitting data, wherein the terminal device includes a receiving unit for receiving resource allocation information sent by a network device, and the resource configuration information is used for indicating a plurality of resource components used for data transmission in a scheduling unit Each of the plurality of resource subbands is composed of continuous physical resource blocks in the frequency domain, and at least two resource subbands of the plurality of resource subbands have different subcarrier intervals; And a transmission unit, configured to transmit the data with the network device according to the resource allocation information, Wherein, the resource configuration information includes first position indication information, and the first position indication information is used to indicate the position in the frequency domain of the first resource subband among the plurality of resource subbands, and the transmission unit specifically And used for: transmitting part of the data in the data with the network device on the first resource subband according to the first location indication information.

根據申請專利範圍第28項所述的終端設備，其中，所述第一位置指示信息還包括第一指示信息和第二指示信息，所述第一指示信息用於指示所述調度單元內在頻域上包括所述第一資源子帶的頻域參考物理資源塊，所述頻域參考物理資源塊的子載波間隔為系統預配置的最大子載波間隔的倍數；所述第二指示信息用於指示所述第一資源子帶包括的物理資源塊在所述第一指示信息指示的起始頻域參考物理資源塊中的位置以及所述第一資源子帶包括的物理資源塊在所述第一指示信息指示的結束頻域參考物理資源塊中的位置。 The terminal device according to item 28 of the scope of patent application, wherein the first position indication information further includes first indication information and second indication information, and the first indication information is used to indicate that the scheduling unit is in the frequency domain. The frequency domain reference physical resource block above includes the first resource subband, and the subcarrier interval of the frequency domain reference physical resource block is a multiple of the maximum subcarrier interval preconfigured by the system; the second indication information is used to indicate The position of the physical resource block included in the first resource subband in the starting frequency domain reference physical resource block indicated by the first indication information, and the physical resource block included in the first resource subband is in the first The position in the end frequency domain reference physical resource block indicated by the indication information.

根據申請專利範圍第29項所述的終端設備，其中，所述第一指示信息為第一比特表，所述第一比特表中的每個比特位對應于所述調度單元中的每個頻域參考物理資源塊，所述第一比特表中多個連續的第一比特位取第一值表示對應的頻域參考物理資源塊包括所述第一資源子帶的物理資源塊。 The terminal device according to item 29 of the scope of patent application, wherein the first indication information is a first bit table, and each bit in the first bit table corresponds to each frequency in the scheduling unit The domain reference physical resource block, where the first value of multiple consecutive first bits in the first bit table indicates that the corresponding frequency domain reference physical resource block includes the physical resource block of the first resource subband.

根據申請專利範圍第29項所述的終端設備，其中，所述第一指示信息具體用於指示所述起始頻域參考物理資源塊在頻域上的位置和所述結束頻域參考物理資源塊在頻域上的位置，或所述第二指示信息具體用於指示所述起始頻域參考物理資源塊在頻域上的位置和包括所述第一資源子帶的頻域參考物理資源塊的數目。 The terminal device according to item 29 of the scope of patent application, wherein the first indication information is specifically used to indicate the position of the starting frequency domain reference physical resource block in the frequency domain and the ending frequency domain reference physical resource The position of the block in the frequency domain, or the second indication information is specifically used to indicate the position of the starting frequency domain reference physical resource block in the frequency domain and the frequency domain reference physical resource including the first resource subband The number of blocks.

根據申請專利範圍第29項所述的終端設備，其中，所述第二指示信息為第二比特表和第三比特表，所述第二比特表和所述第三比特表中的一個比特位均對應於所述第一資源子帶包括的一個物理資源塊，所述第二比特表中比特位取第二值表示對應的物理資源塊屬所述起始頻域參考物理資源塊，所述第三比特表中比特位取第三值表示對應的物理資源塊屬所述結束頻域參考物理資源塊。 The terminal device according to item 29 of the scope of patent application, wherein the second indication information is a second bit table and a third bit table, and one bit in the second bit table and the third bit table Each corresponds to a physical resource block included in the first resource subband, a bit in the second bit table takes a second value to indicate that the corresponding physical resource block belongs to the start frequency domain reference physical resource block, and The third value of the bit in the third bit table indicates that the corresponding physical resource block belongs to the end frequency domain reference physical resource block.

根據申請專利範圍第30項所述的終端設備，其中，若所述多個資源子帶中第二資源子帶與所述第一資源子帶在頻域上位於不重疊的頻域參考物理資源塊，則所述第一比特表中多個連續的第二比特位取第四值表示對應的頻域參考物理資源塊在頻域上包括所述第二資源子帶的物理資源塊。 The terminal device according to item 30 of the scope of patent application, wherein, if the second resource subband and the first resource subband in the plurality of resource subbands are located in the frequency domain on a non-overlapping frequency domain reference physical resource Block, the fourth value of multiple consecutive second bits in the first bit table indicates that the corresponding frequency domain reference physical resource block includes the physical resource block of the second resource subband in the frequency domain.

根據申請專利範圍第30項所述的終端設備，其中，若所述多個資源子帶中第二資源子帶與所述第一資源子帶在頻域上位於重疊的頻域參考物理資源塊，則所述資源配置信息還包括第四比特表，所述第四比特表中的每個比特位對應于所述調度單元中的每個頻域參考物理資源塊，所述第四比特表中多個連續的第三比特位取第五值表示對應的頻域參考物理資源塊在頻域上包括所述第二資源子帶的物理資源塊。 The terminal device according to item 30 of the scope of patent application, wherein, if the second resource subband and the first resource subband in the plurality of resource subbands are located in an overlapping frequency domain reference physical resource block in the frequency domain , The resource configuration information further includes a fourth bit table, each bit in the fourth bit table corresponds to each frequency domain reference physical resource block in the scheduling unit, in the fourth bit table The fifth value of the multiple consecutive third bits indicates that the corresponding frequency domain reference physical resource block includes the physical resource block of the second resource subband in the frequency domain.

根據申請專利範圍第28項所述的終端設備，其中，所述第一位置指示信息具體用於指示所述第一資源子帶在頻域上的起始物理資源塊和所述第一資源子帶包括的物理資源塊的數目，或所述第一位置指示信息具體用於指示所述第一資源子帶在頻域上的起始物理資源塊和所述第一資源子帶在頻域上的結束物理資源塊。 The terminal device according to item 28 of the scope of patent application, wherein the first position indication information is specifically used to indicate the start physical resource block of the first resource subband in the frequency domain and the first resource subband The number of physical resource blocks included in the band, or the first position indication information is specifically used to indicate the starting physical resource block of the first resource subband in the frequency domain and the first resource subband in the frequency domain The ending physical resource block.

根據申請專利範圍第35項所述的終端設備，其中，所述第一位置指示信息具體用於指示所述第一資源子帶在頻域上的起始物理資源塊，包括：指示起始頻域參考物理資源塊和所述起始物理資源塊在所述起始頻域參考物理資源塊中的位置，所述起始頻域參考物理資源塊為在頻域上包括所述起始物理資源塊的頻域參考物理資源塊；所述第一位置指示信息具體用於指示所述第一資源子帶在頻域上的結束物理資源塊，包括：指示結束頻域參考物理資源塊和所述結束物理資源塊在所述結束頻域參考物理資源塊中的位置，所述結束頻域參考物理資源塊為在頻域上包括所述結束物理資源塊的頻域參考物理資源塊；其中，頻域參考物理資源塊的子載波間隔為系統預配置的最大子載波間隔的倍數。 The terminal device according to item 35 of the scope of patent application, wherein the first position indication information is specifically used to indicate the start physical resource block of the first resource subband in the frequency domain, including: indicating the start frequency The position of the domain reference physical resource block and the starting physical resource block in the starting frequency domain reference physical resource block, and the starting frequency domain reference physical resource block includes the starting physical resource in the frequency domain The frequency domain reference physical resource block of the block; the first position indication information is specifically used to indicate the end physical resource block of the first resource subband in the frequency domain, including: indicating the end frequency domain reference physical resource block and the The position of the ending physical resource block in the ending frequency domain reference physical resource block, and the ending frequency domain reference physical resource block is a frequency domain reference physical resource block including the ending physical resource block in the frequency domain; wherein, frequency The subcarrier spacing of the domain reference physical resource block is a multiple of the maximum subcarrier spacing pre-configured by the system.